Worldclass Machinery Solutions is your trusted source for high-quality aftermarket spare parts for mining equipment. As a manufacturer, we specialize in components for drill rigs, rock drills, and drifters. With a vast inventory, competitive pricing, and global shipping, we deliver reliable solutions that keep your operations running efficiently. Check our brochure for more information.

We are born with the desire to offer our clients unique solutions for all their needs, from the conception of an idea to the completion of their projects. We proudly unite five companies: Metallurgy Castech, Plessitech, M.E.W., Metal Coleraine and Plessitech Express. Our group is unique in that its organization is vertically integrated. The company offers design, engineering, parts casting, machining, assembly, painting, transport, installation and a 24/7 technical service. Castech Plessitech Group always acts as a subcontractor but we are also a real development partner in the manufacturing of more complex parts as well as for the optimization of products from a mechanical and metallurgical point of view. The performance and expertise of the products offered to our customers are our great strengths wich distinguish us in the global market in the mining, aluminum, pulp and paper, energy and industrial sectors. Our company places a particular emphasis on the conformity of its products in order to develop and maintain a relationship of trust with all of our clients. Our goal is not only to offer you parts that meet your most stringent requirements at competitive prices but also to ensure fast delivery times.

Mined raw materials travel along extensive transport routes. Ores, raw salt feeds, waste rock, and overburden pass through various steps from mine to mill (mining, material transfers, comminution, mineral processing, hydrometallurgy, filtration and tailings disposal). Our systems ensure smooth, economical, and environmentally friendly processing at each stage of materials handling. From mining to product shipping we have the solutions you need.

Pipe Conveyors overcome challenging terrain. The flexible tubular shape means pipe conveyors can overcome steep inclines and thus make transfer towers and power stations redundant. This is a key factor, especially in comparison to other conveyor belt systems. When a pipe conveyor must traverse a downward incline, this motion can be used to efficiently recover energy. The structurally flexible, low-maintenance system with a small footprint can conquer even the most challenging terrain and keep existing facilities in use and in place. 

Whether for vertical transport hot or cold materials – BEUMER belt bucket elevators ensure an economic vertical transport of fine or coarse bulk material up to large heights. They are highly reliable with long service time, even under strong ambient conditions. They have proven their reliability in thousands of installations in continuous operation, e.g. for silo feeding or in the cement industry for feeding the preheater tower. Download the brochure to learn more.

Haver & Boecker Niagara announces two new educational guides that expand its dedicated PROcheck service program. The company’s signature service examines the potential in every segment of an operation’s screening process to solve material handling challenges and to keep equipment running at peak performance.

Haver & Boecker Niagara offers Make & Hold Agreements and Stocking Agreements so you can secure your stock and minimize unwanted downtime.

Read how one producer in Saskatchewan utilized Haver & Boecker Niagara's portable vibrating screen to boost profits fo their aggregates operation.

Haver & Boecker Niagara has realized a demand for the fertilizer industry and adapted their processing technology to process sulfate of potash. Throughout the decades, Haver & Boecker Niagara has developed special processing solutions that grant high production rates, improved material quality and low maintenance intervals. 

Haver & Boecker Niagara highlights the advantages of pairing eccentric screening technology with polyurethane screen media. Read the benefits here.

While your vibrating screen is designed for minimal maintenance, it can still benefit from regular inspection and preventive maintenance. Read more about our recommended inspections on a monthly basis.

Vibrating screens work hard to keep your product in spec. But, like all equipment, they require proactive maintenance, wear part replacement and periodic upgrades to more efficient technology to maintain reliability and productivity. Read more for daily, weekly and monthly inspection tips.

Does the market demand higher throughput? No problem: The BEUMER paletpac® high-performance palletiser could be your answer. Our palletisers and palletising systems can stack exceptionally high quantities of robust, bagged products onto pallets and then move them carefully, safely and economically. Take the opportunity to increase your production with an automated palletising process. 

Learn how BEUMER helped modernize and increase the performance of the plant between the longitudinal stockyard and the ship loading system for ASEAN Bintulu Fertilizer.

In the area of opencast mining technology, FAM offers an impressive selection of various machines and systems, such as bucket wheel reclaimers for the extraction of mineral resources like lignite, hard coal, overburden, marl, etc. Opencast mining is a mining technique of extracting minerals from the near-surface layer of the earth, these raw materials can be then used for further processing, for example, in the production of metals or building materials. Our product portfolio ranges from mining equipment (e.g., excavators) to crushers, belt conveyors and subsequent stacking technology.

Our size reduction equipment includes diverse crushers and mills for extensive material processing in a variety of industries. Sand and gravel, clay and limestone, gypsum, building site rubble – the reference list of the BEUMER Group’s materials is extensive. From a technical standpoint, the systems are always at the heart of production. Theproduct portfolio includes various crushing & screening plants, including impact, hammer, single & double-roll crushers, plus many more crushers and mills. E.g. cement works rely on the BEUMER Group’s solutions to move limestone over long distances from the quarry to the plant, making operations more sustainable and reducing the plant’s ecologicalfootprint. We strive to be a benchmark in providing you with high quality in every aspect of your individual needs for specialized equipment.

Our size reduction equipment includes diverse crushers and mills for extensive material processing in a variety of industries. Sand and gravel, clay and limestone, gypsum, building site rubble – the reference list of the BEUMER Group’s materials is extensive. From a technical standpoint, the systems are always at the heart of production. Theproduct portfolio includes various crushing & screening plants, including impact, hammer, single & double-roll crushers, plus many more crushers and mills. E.g. cement works rely on the BEUMER Group’s solutions to move limestone over long distances from the quarry to the plant, making operations more sustainable and reducing the plant’s ecologicalfootprint. We strive to be a benchmark in providing you with high quality in every aspect of your individual needs for specialized equipment.

Storage and homogenization of various bulk materials is a significant part of the handling processes within the overall logistic networks of the bulk material processing industry. Dynamic and efficient handling requires the stockyards to be equipped with appropriate technology (e.g., stackers, reclaimers, conveyor systems, etc.). Our product line of stockyard technology encompasses conveying systems, stackers and scrapers of various types, as well as bucket wheel machines. Download the brochure to learn more about BEUMER's Stockyard Technology.

The BEUMER autopac® is an efficient and cost-effective system for simultaneous loading and palletising of bagged materials such as cement, lime or gypsum. In either a mobile or static configuration, it offers a wide range of applications guaranteeing optimum utilisation of dispatch capacities. Download the brochure to learn more.

FAM Minerals & Mining GmbH, as part of the BEUMER Group, is a globally active company headquartered in Germany with a long history as a manufacturer of conveying systems dating back to the 19th century. As one of the leading suppliers, FAM Minerals & Mining GmbH offers machines along the complete transport chain for bulk materials. From extraction, conveying, loading and storage to the processing of various raw materials, FAM Minerals & Mining GmbH offers efficient solutions for different industries. FAM as part of the BEUMER Group combines many years of know-how in series and individual production and offers high-quality engineering as well as extensive service. Download Whitepaper to learn more.

Haver & Boecker Niagara highlights the advantages of pairing eccentric screening technology with polyurethane screen media. The combination of eccentric machines like Haver & Boecker Niagara's F-Class and N-Class with polyurethane media such as Ty-Max and Ty-Deck leads to more uptime, fewer screening problems and higher screening efficiency.

The outlook for rare earth elements is quite promising due to the demand for modern technologies. Haver & Boecker Niagara provides solutions for efficient processing equipment for rare earth elements.

The R.E. Law Crushed Stone quarry near Port Colborne, Ontario, bought its oldest operating F-Class vibrating screen on March 20, 1943. The vibrating screen shipped two months later. The machine was then sold to Hard Rock Paving Co. along with the quarry in 1977. The Waterford Group bought the operation in 2008 and uses the F-Class at a quarry in Uxbridge, Ontario. Its operators say it still works flawlessly.

Agglomerates are the hidden companions of our day-to-day life. Every day we use a multitude of products from different branches of industry that are produced with the help of agglomeration technology. The main objective of agglomeration is to make fine-grained materials into agglomerates or pellets. 

Haver & Boecker Niagara offers the Scarabaeus pelletizing disc to enhance the productivity and profits of mining operations. The cutting-edge processing technology allows operations to sustainably produce iron ore pellets by reducing CO2 emissions while providing heightened efficiency with a 97% production rate of pure iron. 

Mining companies and their suppliers are constantly looking for new ways to increase safety, productivity, efficiency, and cost-effectiveness. Nowadays they are putting more emphasis on climate-friendly and eco-friendly processes, zero-emission technologies, and optimal allocation of resources. Automation and digitalization are also playing a bigger role at all levels.

Essential materials produced by mining companies play a vital role in the global transition to a lower carbon economy. Yet, mining activities have a far-reaching impact on the environment and society. This represents both a challenge and an opportunity to mining companies. As a result, mining companies are constantly striving to improve the efficiency and sustainability of mining operations by identifying and implementing new innovative solutions.

Belt conveyor systems can solve complex transport problems involving bulk materials of all kinds. When choosing the components of a system, you have to consider factors like wear resistance and maximum permissible slopes. How is the BEUMER Group able to develop the perfect solution for your application and deliver it to you? You’ll get answers from Christoph Dorra, Regional Sales Manager for South America, Conveying and Loading Systems, and Martin Rewer, Team Leader for Overland Conveyors.

Do you need to change the belt in your conveyor system but want to avoid prolonged shutdowns? We have a solution, and it’s based on a very special method. In our blog post, we’ll explain how you can do it smoothly.

With the acquisition of one of the leading companies for air supported belt conveyors, The Hendrik Group Inc., the BEUMER Group is expanding its portfolio in the field of bulk material transport. In particular, the handling of alternative fuels (AFR) and raw materials confirms BEUMER's commitment towards sustainability and is at the same time fully complementary to the current technologies offering ensuring an even broader customer benefit. The technology also generates additional potential in the field of bulk material handling of sensitive materials when it comes to preventing hazardous substances from being released into the environment. 

Having developed tailer-made system solutions for mining for almost 90 years, BEUMER’s acquisition of FAM GmbH, Magdeburg supplements the company’s know-how and global position, giving customers the combined experience of the leader in the bulk materials technology market and aptitude of a time-tested conveying system manufacturer.

Having developed tailer-made system solutions for mining for almost 90 years, BEUMER’s acquisition of FAM GmbH, Magdeburg supplements the company’s know-how and global position, giving customers the combined experience of the leader in the bulk materials technology market and aptitude of a time-tested conveying system manufacturer.

Large conveyor capital expenditures in sectors like mining, power plants, and ports must take safety and sustainability into account, but this isn't done as effectively or as regularly as it should be to make sure the investments make financial sense.A fundamental economic assessment is necessary for businesses thinking about installing an overland conveying system to examine the expense, but it's not usually simple to carry out.

BEUMER Group, a global leader in overland conveying for more than 50 years, has the expertise gained in hundreds of overland conveying installations and operations worldwide and the technology to improve efficiency; reduce capital and operating costs; and make the conveying process more environmentally friendly and sustainable.

Haver & Boecker Niagara introduces a new electronic guide that expands its dedicated suite of tools to complement its PROcheck approach.

Haver & Boecker Niagara offers a full diagnostics portfolio by combining the Pulse Impact Test, Pulse Vibration Analysis, and Pulse Condition Monitoring to give aggregates and mining producers a more holistic view of their mineral processing equipment.

Haver & Boecker Niagara updated its deck frame technology to include Pin & Anchor and Cap & Slide designs.Compatible with any groove-style screen media panel, the Cap & Slide deck frame offers ease of installation and extended wear life. The design features a simple polyurethane sleeve that locks into the rail and is held in place with a key. The Pin & Anchor deck frame system incorporates laser cut rails with polyurethane pins and anchors that firmly hold screen media in place and are easily replaceable as wear occurs, extending wear life and reducing downtime.

With a seventy-year history in designing, manufacturing, operating and service of pelletizing equipment, Haver & Boecker Niagara has established itself as a leading specialist in the production of the innovative SCARABAEUS© 7500. Sustainability, maximum efficiency and improved product quality are the main reasons for our customer from Ukraine, to place its trust in our team by ordering in total 15 of our pelletizing discs, 7 of which are about to go into production due to the currently signed contract.

An increase of the yield of the agriculture area is necessary and only achievable with continuous re-feeding the soil with macro- and micronutrients - fertilizing. Haver & Boecker Niagara delivers equipment for production of organic fertilizers, mineral fertilizers and chemical fertilizers: "Within our advanced testing equipment and worldwide proven pelletizing and screening technology, we help our customers to place innovative products on the market of conventional and even organic farming in compliance with legal requirements, so Dr. Jan Lampke, Head of Sales and Projects at Haver Engineering.

An increase of the yield of the agriculture area is necessary and only achievable with continuous re-feeding the soil with macro- and micronutrients - fertilizing. Haver & Boecker Niagara delivers equipment for production of organic fertilizers, mineral fertilizers and chemical fertilizers: "Within our advanced testing equipment and worldwide proven pelletizing and screening technology, we help our customers to place innovative products on the market of conventional and even organic farming in compliance with legal requirements, so Dr. Jan Lampke, Head of Sales and Projects at Haver Engineering.

Let’s build the world together. At Haver & Boecker Niagara, we recognize the importance of and responsibility for caring for our customers as well as the world we all live in. We believe that operational efficiency and environmental responsibility are not mutually exclusive. Check out this video to learn more about our commitment to both.

Pulse condition monitoring from Haver & Boecker Niagara uses modern algorithms and artificial intelligence to monitor the health of vibrating screens, allowing processing operations to be proactive, rather than reactive, when it comes to maintenance efforts. This leads to increased efficiency and decreased downtime – one of the largest sources of lost revenue for producers.

The webinar, moderated by North American Mining magazine editor Donna Schmidt, will feature Weir Minerals Australia applications engineering business manager AARON SCHOT, who will discuss diverse problems dealing with mud, sludge and spoils in mining and how they can be transported safely and efficiently across sites continuously without impacting machinery – and while minimizing personnel involvement in that process for greater miner safety. Hear more about the Multiflo Mudflo solution, its history, and how the pump can be integral to an advanced sites’ dredging plans. About Aaron Schot:Aaron, business manager for Applications Engineering at Weir Minerals Australia, joined the company as a graduate engineer after completing a Bachelor of Engineering (Mechanical) in 2014 at Queensland University of Technology (QUT). Since then, Aaron has held multiple roles within Weir Minerals working primarily with the Multiflo product, specializing in formulating the engineering design of electric and diesel dewatering pumping solutions for both domestic (Australia) and international customers across the mining, municipal and agriculture industries. During his tenure with Weir Minerals, Aaron has also completed a significant amount of work developing and designing new fuel management systems within the Hydrau-Flo™ brand. About the moderator:Donna Schmidt, editor of North American Miningmagazine and the globally focused Miners News weekly e-newsletter and news editor for The ASIA Miner, has been a part of the trade press community for nearly 18 years and has hosted a number of webinars for mining suppliers and partners on a various topics including digitalization, automation and site efficiency, among others. Part of the editorial staff of SEMCO Publishing, which is also home to titles such as Rock Products, Concrete Products and Cement Products magazines, has directed editorial at both NAM and MinersNews.net since their respective inceptions in 2021.

The SS Series Single blow impact energy is more economical and features better production than other options. Models range from 25,000 ft-pounds of striking force all the way to 150,000 ft-pounds of force.

As emission regulations change worldwide to accommodate environmental conditions, engine owners and operators are faced with new challenges in terms of learning how to run, maintain and maximize their diesel engines.Final Tier IV engine mechanics can lead to issues in the field for pump operators and long-term maintenance concerns for equipment owners. While selecting the right pump engine is more complicated than ever, it has also never been more important.This white paper takes a closer look at package curves— a tool that help owners and operators select the right Final Tier IV engine to meet their specific pump application needs.

Leading-edge hydraulic engineering makes Pioneer Pump centrifugal pumps the highest performing pumps on the market. Available in pump sizes from 3" (80 mm) to 30" (760 mm) with flows up to 44,000 gallons per minute (10,000 m3/h) and heads to 850 feet (260m), our pumps are designed to provide better flow, higher head and greater efficiency to meet your unique challenges.

Increase efficiency, improve safety, and reduce downtime with the VDG Drum Motor. Customers and OEMs share their experiences upgrading their belt conveyors with our one-component drum motor.  The innovative VDG Drum Motor has all drive components including motor and gear reducer enclosed inside the drum for a safer, more efficient, and space optimized belt conveyor drive solution. Reducing energy expenses by 30% per drive, all components of the VDG Drum Motor are designed for 80,000 hours of continuous operation before maintenance, minimizing downtime, reducing maintenance costs, and increasing production.  All VDG Drum Motors are engineered and manufactured in-house in USA and Canada, using cutting-edge production technology and automation, ensuring quality, fast delivery, and after sales support.

Ensure that your plant has a good inventory of spare parts on hand by learning how to collect the data necessary to build your own spare parts inventory model.

See how secondary check valves in discharge piping up a highwall work to prevent water hammer and alleviate stress on the pump to help you avoid ugly repair bills and downtime. For more information on secondary check valves or any of your pump rental needs, contact Xylem Rental Solutions.

NPSH is the abbreviation for Net Positive Suction Head, the condition most often associated with suction cavitation. This can be a confusing concept for people who use pumps so the following is an explanation in plain English.

How can the overall performance of your plant be determined? Most plants calculate availability, or the percent of the time the plant or a particular circuit is operating, as well as overall production and recovery. But, is this information enough? Does it provide sufficient fine-grained information on where improvements can be made? This paper suggests five quantitative factors applied to a plant or to individual parts of a plant that identify the productivity of the plant—in other words, its productivity profile.

In this interactive PDF, we talk about common training myths and our responses.

How can the overall performance of your plant be determined? Most plants calculate availability, or the percent of the time the plant or a particular circuit is operating, as well as overall production and recovery. But, is this information enough? Does it provide sufficient fine-grained information on where improvements can be made? This paper suggests five quantitative factors applied to a plant or to individual parts of a plant that identify the productivity of the plant—in other words, its productivity profile.

Failure of permanently installed mine dewatering pumps can wreak havoc with production schedules and budgets. Fortunately,  for practically every permanent pumping system there’s a temporary rental alternative that prevents costly downtime while the root cause of the failure can be found and fixed.  

Founded in 1983, Performance Associates International (PAI) is the worldwide leader in mine and plant industrial training. Our custom training modules and on-site training have improved start-up success and operations for clients on nearly every continent. We invite you to experience one of our e-learning training modules. Here you will see a video demonstration of a sample principle of operation from an e-learning module. A principle of operation describes in detail how a piece of equipment or a process works. In this sample, you will learn about Jameson Cell flotation technology and how its design allows for more efficient mineral separation in a much smaller tank than traditional column and mechanical flotation cells. We describe in detail the key components of the Jameson Cell and the operating principles. At the end of the module, a test will help assess what you learned. In a full training program, test results can be recorded and tracked in an LMS. A principle of operation like this would be only one of many included with a full plant operations training program. Note: This is a sample and does not contain the Jameson Cell training module in its entirety. If you would like to try out this e-learning module, please contact Kenneth Slack at [email protected] or +1-520-544-2220.

Thanks to recently advanced sensor technology and pump automation, you now have the ability to accurately ensure that discharge water is in compliance – which lets you reduce manpower costs while ensuring all discharge guidelines are being met.

The geology report, feasibility study, and mine plan look great. Why do so many mining project start-ups fail to perform? Most mining companies put a great deal of emphasis on the nature of the reserve, the mine plan, the extraction process to be used, and the process plant design—obviously all very important. Even when large, highly regarded engineering, procurement, and construction firms develop the project, operating results are very often disappointing. In this paper, we explore the role of Operations Readiness on the financial impact of mining project start-ups. A relatively small investment in operations readiness produces a huge financial return. Many investment firms, as well as mining company senior executives, fail to consider this important factor in operating success.

We know that geospatial data collection is increasingly accessible. But data is more than just a number. Real solutions come from understanding and analyzing the data that is collected. We work with our clients to develop meaningful deliverables for underground mining applications that save our clients money and improve their operations. Transforming data into actionable insights is what the Firmatek team delivers. Learn more about the data collection and analysis process in our case study by Seaver Hall, Project Engineer.

Because water plays a critical role in both open pit and underground mining, Xylem Rental Solutions can help you solve even the most complex water challenges. Whether you require fast-track temporary emergency response or reliable long-term operation, we design, build and manage rugged, scalable turnkey systems that provide greater efficiency, reliability, and peace of mind. With our advanced treatment equipment, precision analytics, and wide range of durable pumps – including Godwin, Goulds and Flygt – you can rent everything you need from one trusted partner. And with our deep expertise in mining exploration, development and long-term operation, we also provide the brainpower you need for smarter, more environmentally responsible water management.

With reference to greenfield plant projects, using process simulators similar to the designed plant Human-Machine Interface (HMI) or Distributed Control System (DCS) has become common practice. These simulators represent a “virtual plant” based on process modeling of the circuit chemistry and thermodynamics, and on the physical nature of the plant, including equipment, valves, piping, etc. The virtual plant allows trainees to troubleshoot problems, optimize process variables, react to alarms, etc., all based on the process simulation model.  Performance Associates’ experience is that this complex simulator training is valuable, but only after more in-depth training on the process and control logic. To truly optimize a process plant, prior to simulator training, the control room operators must have detailed knowledge of the following:Process objective of each process system, comprising a group of unit operations.Process objective of each unit operation.Process chemistry and the variables affecting it.Important characteristics of each unit operation, the variables affecting it, and the impact on downstream unit operations.Plant control loops, interlocks, and alarms.Safety issues related to the process and control schemes.Operating procedures for start-up and shutdown under various scenarios, as well as important operator tasks.Additionally, trainees must be intimately familiar with the applicable fundamental scientific concepts, such as pressure, temperature, heat exchangers, electricity, PID control logic, combustion, etc. With this fundamental and plant-specific foundation, the process simulator can be fully exploited for training. 

With reference to greenfield plant projects, using process simulators similar to the designed plant Human-Machine Interface (HMI) or Distributed Control System (DCS) has become common practice. These simulators represent a “virtual plant” based on process modeling of the circuit chemistry and thermodynamics, and on the physical nature of the plant, including equipment, valves, piping, etc. The virtual plant allows trainees to troubleshoot problems, optimize process variables, react to alarms, etc., all based on the process simulation model. Performance Associates’ experience is that this complex simulator training is valuable, but only after more in-depth training on the process and control logic. To truly optimize a process plant, prior to simulator training, the control room operators must have detailed knowledge of the following:  Process objective of each process system, comprising a group of unit operations.  Process objective of each unit operation.  Process chemistry and the variables affecting it.  Important characteristics of each unit operation, the variables affecting it, and the impact on downstream unit operations.  Plant control loops, interlocks, and alarms.  Safety issues related to the process and control schemes.  Operating procedures for start-up and shutdown under various scenarios, as well as important operator tasks. Additionally, trainees must be intimately familiar with the applicable fundamental scientific concepts, such as pressure, temperature, heat exchangers, electricity, PID control logic, combustion, etc. With this fundamental and plant-specific foundation, the process simulator can be fully exploited for training.

Telsmith provides a full range of integrated processing equipment to the aggregate, mining, industrial, and recycling industries with cone crushers, jaw crushers, vibrating equipment, portable plants, track plants, as well as full-scale modular processing facilities. 

Developing a profitable mining venture is no small matter. It requires enormous initial investments in research, construction, and equipment. But a mineral processing plant does not run itself. Even with the best equipment and good ore quality, optimal results are dependent upon keeping the process running smoothly, avoiding process upsets, maintaining process variables in the desired range, and minimizing breakdowns and downtime. A highly trained workforce is an essential element in a successful, and profitable, start-up. The knowledge and abilities of plant operators and maintenance personnel can make or break an operation. Trained operators know what to look for during preoperational and routine inspections, allowing maintenance tasks to be planned and unexpected costly breakdowns avoided. Trained operators know what variables exist at different stages in the process and how to make appropriate adjustments in real time. Trained maintenance personnel are well acquainted with the plant equipment, and maintenance planners can schedule work and maintain a spare parts inventory to minimize downtime. Additionally, new operations that train their workforce just prior to plant commissioning can utilize their operators in the commissioning process. Having been trained and gained field experience through plant commissioning, operators are ready to hit the ground running once feed is introduced. A faster ramp-up means more earnings, more quickly. The cost of developing a proper training program is a small percentage of the overall engineering, procurement, and construction budget but it constitutes a large percentage of the gains realized from a successful start-up and ramp-up to full production. Performance Associates International (PAI) has designed and presented custom training programs for operators and maintenance personnel in metallurgical plants around the world for over 35 years. We are proud to have been part of the successful start-ups at Lundin Mining’s Eagle Mine, Vale’s Voisey’s Bay project, and Torex Gold’s El Limon-Guajes project. Click Download to view the actual vs. projected start-up results from these three metallurgical plants that made use of PAI’s custom-built training programs and on-site training.

During the final stages of metallurgical plant construction there is tremendous pressure to commence production. More often than not, there will have been budget overruns and schedule delays. Corporate management and investors are naturally anxious to generate cash flow. This pressure may evolve into a fast-track culture regarding the commissioning and start-up. www.perfnet.com 

During the final stages of metallurgical plant construction there is tremendous pressure to commence production. More often than not, there will have been budget overruns and schedule delays. Corporate management and investors are naturally anxious to generate cash flow. This pressure may evolve into a fast-track culture regarding the commissioning and start-up.  www.perfnet.com 

Three dimensional animations integrated into a process plant computer-based training (CBT) program can greatly enhance trainee understanding of process equipment. This introductory maintenance manual and animation provides a narrative description of a jaw crusher’s location in the process, its function, components, and maintenance requirements. The animation introduces maintenance personnel to the jaw crusher in a dynamic visual context. The narrated animation replaced the standard text and graphics in the description section of the equipment maintenance (CBT) module. The descriptive text was adapted to a narrative form. Multimedia specialists used engineering drawings and photographs to create models of the equipment and animate the modeled images to illustrate the key concepts and components in concert with the narration.

Excellence in Mining, Process Plant, Maintenance, and Safety Training Performance Associates International, Inc. (PAI) is the world leader in online and on-site training for the mining industry. We provide organizations with a single source for assessments, skills training, continuing education, safety training and compliance mandates, and more. Our first-class content guides your staff to gain the critical knowledge they need to work safely and efficiently today. Our proven, leading-edge industrial training programs improve performance in existing operations and ensure success during the start-up of new operations. Our training programs have saved companies millions in personnel accident prevention, production loss, and equipment damage. We partner with our customers and consult collaboratively to provide the analysis and content development to meet your needs. Services PAI Offers Plant Operator TrainingOur three-tier concept for effective plant operator training starts with fundamental knowledge and progresses to plant-specific concepts that are reinforced through detailed animations and interactive simulations. Maintenance TrainingWe custom build state-of-the-art maintenance training programs using exploded graphics, explanatory text, detailed procedures, and management systems. Mobile Equipment Operator TrainingOur first-class training program focuses on operator controls and indicators, safety, and performance optimization. It also includes operating, emergency, and troubleshooting procedures.Commissioning and Start-UpWe can identify, track, and control the thousands of activities that must occur for the successful commissioning and start-up of a process plant. There is no shortcut to a successful start-up.Testing and Tracking SystemsWe can help manage and track the performance of employees to improve the overall performance of the mine and plant industrial training programs. Our testing and tracking systems provide invaluable assistance in safety and operational compliance. Introductory and Safety TrainingOff-the-shelf introductory and safety training packages are an excellent source for mine and plant industrial training courses. They provide fundamental knowledge and basic training concepts. Now offering online courses!E-Learning, Animations, and SimulationsOur interactive e-learning keeps trainees focused and engaged. Our experienced in-house multimedia team develops state-of-the-art graphics, virtual and mixed reality training, stunning 3D animations, and technically engineered simulations of real-world scenarios.Other ServicesWe also provide many services relevant to planning, analyzing, and evaluating process plants, including:·         Operations readiness plan.·         Planning studies.·         Quality management.·         Systems implementation.·         Statistical process control.·         Reliability-based asset management.·         Productive capacity studies.·         Surveys and needs analyses.·         Economic life analysis.·         Process control strategies and methods.·         Debottlenecking and process optimization.·         Spare parts inventory and analysis.·         Feasibility studies.·         Consulting assistance.Consulting * Gap Analysis * Content Development * LMS * On-Site * Train-the-Trainer * E-Learning * Process Plant Optimization * Training * Safety * Mine Training * Plant Operator Training * Maintenance * Mobile Equipment * Competencies * Commissioning

Excellence in Mining, Process Plant, Maintenance, and Safety Training  Performance Associates International, Inc. (PAI) is the world leader in online and on-site training for the mining industry. We provide organizations with a single source for assessments, skills training, continuing education, safety training and compliance mandates, and more. Our first-class content guides your staff to gain the critical knowledge they need to work safely and efficiently today.  Our proven, leading-edge industrial training programs improve performance in existing operations and ensure success during the start-up of new operations. Our training programs have saved companies millions in personnel accident prevention, production loss, and equipment damage. We partner with our customers and consult collaboratively to provide the analysis and content development to meet your needs.  Services PAI Offers  Plant Operator Training Our three-tier concept for effective plant operator training starts with fundamental knowledge and progresses to plant-specific concepts that are reinforced through detailed animations and interactive simulations.  Maintenance Training We custom build state-of-the-art maintenance training programs using exploded graphics, explanatory text, detailed procedures, and management systems.  Mobile Equipment Operator Training Our first-class training program focuses on operator controls and indicators, safety, and performance optimization. It also includes operating, emergency, and troubleshooting procedures. Commissioning and Start-Up We can identify, track, and control the thousands of activities that must occur for the successful commissioning and start-up of a process plant. There is no shortcut to a successful start-up. Testing and Tracking Systems We can help manage and track the performance of employees to improve the overall performance of the mine and plant industrial training programs. Our testing and tracking systems provide invaluable assistance in safety and operational compliance.  Introductory and Safety Training Off-the-shelf introductory and safety training packages are an excellent source for mine and plant industrial training courses. They provide fundamental knowledge and basic training concepts. Now offering online courses! E-Learning, Animations, and Simulations Our interactive e-learning keeps trainees focused and engaged. Our experienced in-house multimedia team develops state-of-the-art graphics, virtual and mixed reality training, stunning 3D animations, and technically engineered simulations of real-world scenarios. Other Services We also provide many services relevant to planning, analyzing, and evaluating process plants, including: ·         Operations readiness plan. ·         Planning studies. ·         Quality management. ·         Systems implementation. ·         Statistical process control. ·         Reliability-based asset management. ·         Productive capacity studies. ·         Surveys and needs analyses. ·         Economic life analysis. ·         Process control strategies and methods. ·         Debottlenecking and process optimization. ·         Spare parts inventory and analysis. ·         Feasibility studies. ·         Consulting assistance. Consulting * Gap Analysis * Content Development * LMS * On-Site * Train-the-Trainer * E-Learning * Process Plant Optimization * Training * Safety * Mine Training * Plant Operator Training * Maintenance * Mobile Equipment * Competencies * Commissioning  

Performance Associates (PAI) delivered a jaw crusher introductory maintenance manual and animation to Northern Star Resources, Ltd.—Kanowna Belle Project in Western Australia on June 7, 2019. The animation provides a narrative description of the jaw crusher’s location in the process, its function, components, and maintenance requirements. With this delivery, PAI successfully met Northern Star Resources’ need for an animation that could introduce new maintenance personnel to the Kanowna Belle jaw crusher in a dynamic visual context. The narrated animation replaced the standard text and graphics in the description section of the equipment maintenance computer-based training (CBT) module. The descriptive text was adapted to a narrative form. Multimedia specialists used engineering drawings and photographs to create models of the equipment and animate the modeled images to illustrate the key concepts and components in concert with the narration.

In many mine and plant operations, safety is looked upon as an extra layer of special attention placed above the operations management layer. But safety awareness must be built into the detailed operations and maintenance training on the equipment as well as on the process itself.  

Strata excels in problem solving, and we have the products, equipment and expertise to work with mine personnel to overcome difficulties and deliver reliable and lasting results. Strata’s qualified mining professionals are available to evaluate your mining conditions and recommend the best solution.Strata’s uniquely formulated injection products provide unlimited applications in: Water Control - Sealing, diverting, stoppingCavity and Void FillingFragmented rock consolidationGround consolidation and stabilizationRock Cracks and Faults Repair/SealingStructural Support

Proximity detection and collision avoidance is one of the most vital of today’s technologies for keeping workers safe around heavy machinery. The ever-enhancing Strata HazardAvert® is designed to be used in both underground and surface mining operations and the system promotes safer work practices through increased safety awareness and modified worker behavior. It works to prevented accidents and collisions which in-turn improves overall productivity and efficiency.

StrataConnect DigitalBRIDGE™ is a point-to-multipoint Power-over-Ethernet (PoE) digital network for underground applications. It delivers both power and high speed digital data over a single coaxial cable to any location where digital end-point devices are desired. DigitalBRIDGE™ provides data speeds and capabilities comparable to fiber and can be used for a wide variety of applications such as, Voice-over-IP (VoIP) communications, Wi-Fi access, video, cameras, telemetry, tracking, tele-remoting and more.

Transform your site data into business intelligence. Conducting inventory measurements on a monthly basis gives you key insights about your operation. The measurement itself is just data, but when you turn the data into insights, you're building your level of business intelligence. This allows you to manage and improve your overall operation. Download our article to learn more about the 3 Reasons to Conduct Monthly Inventories and how you can improve your operation.

Turner Mining Group continues to embrace new technology to increase efficiency and keep their employees safe. Drones have had a big impact on both of these factors. From billing reconciliation to safety, adopting Firmatek’s Drone Solutions across Turner Mining's nationwide organization has helped them improve efficiencies in a number of areas. Download our case study to learn how drone solutions can help improve your operations.

Each individual will require more than 3 million pounds of minerals, metals and fuel during his or her lifetime, meaning companies must optimize to meet increased demand. Big data can help achieve that goal, but only if it's used correctly. Because data is being collected more frequently, it's more important than ever for everyone to understand the basics of data collection, analysis, and delivery. The best way to do this is by forming an accurate  picture of the end-to-end process. Download our published article to learn more. 

H-Series™ Impact MillsThe Stedman H-Series multi cage mill is best at pulverizing, grinding, crushing and mixing abrasive and non-abrasive materials – wet, sticky or dry. The H-Series works more efficiently than other types of pulverizer machines and provides a finer, more uniform grind.H-Series cage mills can handle up to 240 tons per hour and are reversible for extended wear life. The H-Series cage mill is engineered and constructed to operate at or near-peak efficiency longer, providing a greater return on capital investment over its life than competing equipment.H-Series Features and BenefitsCapable of producing a variety of product gradations, easily altered by changing the impact mill speedQuick-opening housing for inspection and maintenance allows for minimum downtime for wear part replacement and inspectionInspections typically require only 5 minutes and complete change out of wear components in as little as one hour or less versus 4 hours or more with other millsCompact, unitized construction, occupies up to 45% less floor spaceReversible DesignProvides optimum utilization of crushing componentsImpact Mill Applications:AglimeAgricultural GypsumRoof & Floor TileClay & ShaleCoalFertilizerSaltsBreak Into Your New Cage MillThe Stedman Testing & Toll Processing Facility is the place to test your material in our full size equipment. If it can be crushed, ground, pulverized or mixed, chances are we’ve done it. Schedule your product testing in our H-Series today. To learn more about what to expect from testing, read this article that ran in POWDER BULK ENGINEERING magazine.PotashCornAnimal FeedsAluminum DrossCorn FiberGrainsGelatin

The Stedman V-Slam™ is the vertical shaft impactor for all your coarse-to-fine crushing needs. It offers significant savings over higher-priced competitive crushers. The V-Slam, with its low horsepower per ton of throughput, minimizes operating costs. Our vertical shaft impactors feature multiple rotor configurations for various applications. From open and enclosed rotors to the Stedman Patented Tubular Rotor, each machine is configured to provide customers exactly what is needed for their unique application.The V-Slam has a wide speed range as well as the highest rotor tip speed allowing a high degree of process control.The new Patented Tubular Rotor provides many benefits over the standard shoe and anvil designs as well as rock-shelf applications. The easily replaceable and indexable rotor tubes, cut your total operating cost and maintenance time in half, making V-Slam the easiest VSI to maintain and one of the best impact crusherson the market.Vertical Shaft Impactor ApplicationsLimestoneSand & GravelGlassFerro Silicon & Silicon CarbideAluminum Dross & Other SlagsBurnt MagnesiteTungsten CarbideTrona SulfateBariteBakery WasteZeoliteand much more...Click here for information on retrofitting your existing VSI to the NEW Stedman Tubular RotorGive Your Materials a Spin in our Test Facility VSIThe Stedman Testing & Toll Processing Facility is the place to test your material in our full size VSI. If it can be crushed, ground, pulverized or mixed, chances are we’ve done it. We have more than 10,000 test reports to help get you to the best solution quickly. To learn more about what to expect from testing, read this article that ran in POWDER BULK ENGINEERING magazine.

A solid performer since its ground-breaking introduction, the Stedman Mega-Slam horizontal shaft impactor effectively handles large feed sizes - beyond the range of secondary HSI crushers. Horizontal Impactor ApplicationsAluminum DrossAsphaltBrickGravelLimestone Impact Crusher Lead SlagShaleClick here for more applicationsMega Slam Features and BenefitsReduction ratios up to 20:1360° Bearing contact = long bearing lifeFeatures 2” thick housing linersSolid Rotor with 3 or 4 breaker bar rowsDependable product control and rugged wear partsManual or power assist apron adjustmentMax-Yield™ automatic apron adjustment systemMega-sized processing requires more than guesswork.Stedman’s unique, full scale Testing and Toll Processing Facility takes the guesswork out of selecting particle size reduction technology and equipment. Contact Stedman to schedule your testing in our full-size HSI. To learn more about what to expect from testing, read this article that ran in POWDER BULK ENGINEERING magazine.

Impact size reduction incorporates striking to pulverize material. The primary types of impact crushers include -- horizontal shaft impactors (HSI), cage mill pulverizers, and vertical shaft impactors (VSI). Each impactor can be further designated as primary and secondary rotor crusher as well as tertiary and quaternary crushers. This particular designation is dependent on which processing stage the equipment is being utilized. Crusher Throughput ProductionFeed enters the crushing chamber and meets the breaker bars or plates propelling feed against the breaker plates resulting in impact reduction. There are no screens or grates holding material inside impact crushers, so material is efficiently processed at high rates for low costs.Secondary Impact Crush ApplicationsLimestoneGravelClay & ShaleFrac SandCoalSlag (Aluminum Dross, Copper, Steel, etc…)Fired ClaysRAP – Asphalt recyclingConcrete without RebarFloor Tile GlassConcrete BlockStone CrusherResidential, Commercial & Paving BricksGranite

Our size reduction crush testing equipment is available for your products, whether you are interested in testing or in our full service toll grinding services facility.Just minutes from the Cincinnati/Northern Kentucky International Airport, it is perfect for one day testing visits. Highly trained and experienced technicians guide you through the testing processes with your material to help determine which equipment is best for your needs.Impact Crushing MethodLearn the basics of controlled impact crushing, pulverizing or upgrading of your material. See how we prepare and load your material and set RPMs for fine to coarse production. Watch real time horsepower consumption through start up and full load. You will see our crusher testing process personally and receive your end product on site with a confidential, written report including:Moisture analysisRaw feed gradation analysisProduct gradation analysisBulk densityAbrasion testEstimated metal replacement costsPower requirements for startup and operationTest Crushing MachineryWe provide assurance that you are buying the right equipment for the job. Stedman offers the following crusher testing machines to test your products:Grand-SlamTM HSI ImpactorH-SeriesTM Multi-Row Cage Mill PulverizerV-SlamTM VSI ImpactorMicro-MaxTM Fine Grind Air Swept MillAuroraTM Dual Rotor CrusherHammer Mill

MAKING EQUIPMENT REPLACEMENT DECISIONS - The decision to replace production equipment as it nears the end of its life-cycle is both an economic and a performance decision. Economics are involved in the identification and procurement of the best equipment for the capital outlay constraints involved. Performance considerations are important in selecting the best equipment for the job. Chapter from Maintenance in Transition - The Journey to World Class Maintenance

Underground mining is at an interesting place right now, with the availability of diesel-free, battery electric equipment in most of the vehicle categories except heavy haulage, with that gap being actively addressed by a number of OEMs and the solution, not something to be relegated to the distant future as a theoretical. It’s coming, along with fast charge capabilities underground.

Fresh ideas aren't just welcomed, they are needed. Sustainable mining practices have been a concern for years and they are now more important than ever. As demand for resources continues to grow, mining companies are focused on figuring out how to deliver raw materials as efficiently and sustainably as possible — and the driving force behind this effort is technology. Download our article for more information on the 3 Ways to Continue Mining's Journey Toward Sustainability.

Planners are most effective when they plan the right work. Here are some recommendations for determining which work should be planned in your organization.

Firmatek has been measuring stockpiles and helping the Aggregate Mining Industry manage its inventory for almost 30 years. The industry has used a variety of different technology over the years. From wheel and tape, to drone solutions, Aggregate Mining companies have continued to develop innovative solutions for measuring inventory. With each evolution in the technology, there have been improvements in everything from accuracy, to safety, to management systems. Let’s take a look back at how we got to where we are today.

The amount you pay for your measurement is not your only cost when it comes to inventory. In the industry, we talk about what it costs to measure your inventory, but rarely do we discuss the cost of not measuring your inventory. Cutting costs by rarely measuring inventory could actually be costing your business more money. We invite you to download our article on the costs associated with not measuring your inventory for more information.

All You Need to Know About: Vertical Shaft Impactor (VSI) Primers By Eric Marcotte, Inside Sales Manager, Stedman Machine Company Vertical Shaft Impactor What Is VSI? All roads, you might say, lead to the Vertical Shaft Impactor (VSI) because these crushers make it possible to create roadways and just about everything else. Francis E. Agnew of California patented one of the first Vertical Shaft Impactors in 1927. His configuration stacked three VSIs atop each other to produce sand, thus starting the VSI evolution. Today, VSI crushers – and the folks who rely on them – have produced many configurations to include everything from the addition of cascading material into the crushing chamber, to air swept separation of lighter product. One version suspends the shaft from above like a sugar centrifuge. It’s also one of the most feature-patented crushers, so some of the things mentioned here might be unique to a single manufacturer. VSIs apply a large amount of energy to crush material and that’s why it’s one of the most versatile crusher configurations today. View our VSI Machine Specifications, and get a quote today! VSI Benefits When it comes to producing materials such as aggregate for road making, VSI crushers use a high-speed rotor and anvils for impact crushing rather than compression force for the energy needed for size reduction. In a VSI, material is accelerated by centrifugal force by a rotor against the outer anvil ring, it then fractures and breaks along natural faults throughout the rock or minerals. The product is generally of a consistent cubical shape, making it excellent for modern Superpave highway asphalt applications. The rotor speed (feet per minute) controls final particle size. The VSI’s high cubical fracture percentage maximizes first-pass product yield and produces tighter particle size distribution. It has a high-throughput capacity ideal for beneficiation (elimination of soft material). Properly configured the VSI accepts highly abrasive materials. It has simple operation and maintenance. You can quickly change product size by changing rotor speed or cascade ratio. Some models have reversible wear parts to reduce downtime. The VSI typically has low operating costs even in high-moisture applications because of reduced energy costs and low wear cost per ton. VSI Disadvantages There are some feed size limitations with a VSI because of the small feed area available in the center of the rotor. Tramp material in the feed such as gloves, tools, etc. can cause problems with imbalance. The high RPM and HP require careful balance maintenance such as replacing shoes on both sides of the rotor at the same time. High wear part cost may be a problem for some hard abrasive materials, but the VSI may still be the best option. VSI Applications Major limestone applications are for Superpave asphalt aggregates, road base, gravel, sand and cement. Industrial uses include: corundum, corundite, ferro silicon, glass, refractories, silicon carbide, tungsten carbide and zeolite. Mining applications include: bauxite, burnt magnesite, iron ore, non-ferrous metal ore, perlite and trona sulfate. VSIs are excellent for everything from abrasive materials to waste and recycling applications. Verticl Shaft Crushers VSI Crushing Method The VSI is typically used after a primary or secondary crusher. This makes a VSI ideal for making sand and for making coarse and medium aggregates for concrete/asphalt production. Feed size and characteristics will affect the application of a VSI. The feed size is limited by the opening in the center of the rotor. Normally less than 5-inch material is desired, but very large VSIs can handle up to 12-inch feed. Another feature that will affect application is moisture, which can make the feed sticky. Required production capacity is the final limiting criteria. Large primary horizontal shaft impactors can output up to 1600 TPH and more. 1000 TPH is about the maximum for a VSI because of the limiting motor size and the rising G-force of a high-speed rotor, which is calculated by multiplying the radius times the square of the RPM. Shoe configurations are many: rock on rock, groups of rollers, special tip wear parts and many others. The metallurgy of the shoes is also highly varied. Rotors can have three to six shoes. The number of shoes is typically governed by the diameter of the rotor. The larger the diameter rotor, the more openings are possible. Computational Fluid Dynamics (CFD) mathematical models are utilized to simulate the flow and collision forces to reveal solutions for lower wear cost, consistent final product, and higher energy efficiency. The material to be crushed is fed into the center of an open or closed rotor. The rotor rotates at high rpm, accelerating the feed and throwing it with high energy into the crushing chamber. When the material hits the anvil ring assembly, it shatters, and then the cubical shaped product falls through the opening between the rotor and the anvil and down to the conveyor below. The rotor speed (feet per minute) controls final particle size. Speeding up the rotor will produce more fines, slowing it down will produce fewer fines. Feeding Methods Center feed The typical VSI is fed, from above, into the center of its rotor. The material is then flung across an open void to the crushing chamber. It then impacts the outer anvil ring. This crushing action imparts very high energy to the material and is very effective on most types of material. It gives a very uniform and consistent grade of product. Cascade feeding V-Slam Impactors In cascade feeding, material bypasses the rotor and enters the crushing chamber from above. It’s called cascade feeding because as material fills up a large feed bowl, with an outer diameter larger than the outer diameter of the rotor, it spills over the side and falls into the crushing chamber from above, bypassing the rotor. The effect of increasing feed through cascade is similar to slowing the rotor. Cascade feeding in amounts up to 10 percent may have no effect on particle size distribution or quality. The product gradation curve and product shape will change, if an increased amount of cascade feeding is used. Vertical Shaft Impactor for Aggregates (Above: Vertical Shaft Impactor, No Cascade vs. With Cascade Feed, Particle Size Distribution Chart) Rotor and Anvil Configurations The VSI features multiple rotor/anvil configurations for various applications. From open or enclosed rotors to the tubular rotor, each machine is configured for their unique application. In many cases the rotor table, rotor assemblies, anvil ring or rock shelf are interchangeable, allowing maximum application flexibility. Crushers for Aggregate Industry Open top metal rotor shoe on metal anvil The open top metal rotor is good for large feed or medium to very hard material, but it will work best for softer materials. It can handle medium abrasive, dry or wet, but not sticky materials. High reduction ratios are common, which are excellent for sand and gravel production in closed loop systems. Shoe shape can change the production size range. A straight shoe face design produces finer product, and a curved shoe face design produces coarser material. Stedman VSI Impactor Tubular metal rotor shoe on metal anvil The tubular rotor creates higher tip-speeds, which increases first pass yield with tighter particle size distribution and also reduces the recirculation loads. One unique feature is that the rotor rotation is reversible, allowing wear on both sides of the tube. Rotating the tube itself one-quarter turn also doubles the wear. Vertical Shaft Impactor Benefits Enclosed metal rotor shoe on metal anvil The enclosed top plate on a rotor primarily prevents material from escaping from the top of the rotor, which could happen with an overfed open top rotor. Vertical Shaft Impactor Applications VSI Crushers (Above: Rock shelf when VSI at rest. In operation, the brown rock fills the chamber to the upper roof ring. Rock impacts rock in operation.) Enclosed autogenous rock rotor table on autogenous rock shelf Any time the material or rock is used as an impact wear surface the term autogenous is used. Putting a top on the rotor table and shoes allows autogenous use. During operation of the VSI, a bed of material can be designed to build up inside the rotor against each of the shoe wall segments. The bed, which is made up of material that has been fed to the rotor, extends to a wear tip. The bed protects the shoe wall segment from wear. Concerning the rock shelf anvil, it forms a near vertical wall of material upon which the accelerated material impacts. “Rock-on-rock” crushing reduces maintenance but can require up to 30 percent of material recirculation before meeting size requirements. Also, the rock shelf anvil absorbs energy that could otherwise be used for breaking, which may reduce efficiency. More RPM may be needed to achieve the same result as a solid metal anvil. Good for medium abrasive materials, rock-on-rock configurations of either or both rotor and anvil may produce consistent material with low-wear cost and can handle wet but not sticky conditions. Reduction ratios from 2:1 to 5:1 can be expected. It’s widely used for quarried materials, such as sand and gravel. Due to the many configurations of the VSI feed, rotor, anvil and open- or closed- system design; testing is the only way to ensure proper application of a VSI crusher. V-Slam Supplier Summary The VSI is one of the most versatile crushers available on the market today. Even with some limitations, like feed size and output capacity, VSI features have been and continue to be developed to maximize first-pass yields and lower operating costs. If you test your process on full-scale equipment before choosing your VSI, you won’t be disappointed. About the author: Eric Marcotte joined Stedman Machine Company and its affiliate Innovative Processing Solutions in 2010. He has a Mining Engineering Degree from the University of Kentucky.

By Eric Marcotte The mineral processing industry usually evolves rather than revolutionizes, but the Horizontal Shaft Impactor (HSI) has revolutionized the crushing process in numerous industries.32 IMPACTOR 400 There are several varieties of the HSI, and their similarities are more numerous than their differences. All varieties feature externally fed horizontal rotors with breaker bars, which propel material into a series of apron-mounted breaker plates that crush or pulverize many different types of materials to specified degrees of fineness. In 1946, Dr. Erhard Andreas of Muenster, Germany, patented the “Andreas Impact Crusher System.” His design utilized old torpedo tubes and steel from decommissioned tanks. Since then, there have been many unique features of the design patented, but they all operate similarly. This article reviews current techniques employed to get the most from this versatile design. Versatility Reduction ratios of up to 30:1 are achievable in a single stage. The simple design offers low capital and operating cost. Low headroom requirements make it easy to install. Product sizes may be varied by changing rotor speed and the clearances between rotor breaker bars (also called blow bars or hammers) and apron breaker plates. HSI applications have gone beyond soft and nonabrasive materials such as limestone, phosphate, gypsum and weathered shales, to harder minerals thanks to the introduction of alloy steel rotor breaker bars. Typical alloy steels contain manganese and/or high or medium chromium content. There are many different crushing chamber designs on the market, and proper selection will depend on the knowledge of the application for proper feed, crushing chamber configuration, metallurgy of the crushing chamber components, gap setting and rotational speed. Finally, computer controls can automatically adjust HSI settings on the fly to adjust for wear or changing specs. Operation HSIs have a lined crushing chamber with rotating breaker bar rotor on a horizontal axis. The size reduction takes place quickly along short fracture lines, producing a more cubical product to meet aggregate specifications. This fast impact fracture is different from the slow compression breaking in cone or jaw crushers that produce more slabby or flat material (5:1 length to height ratio). 32 IMPACTOR2 400Feed enters the primary crushing chamber and meets the rotor breaker bars, which impel the feed against the first apron lined with breaker plates. Impact with the rotor, the breaker plate, and inter-particulate collision all contribute to comminution. Material is reduced in the primary chamber and passes by the front apron breaker plate gap, entering the secondary and, in some configurations, tertiary chambers, for final reduction. A high percentage of the initial size reduction comes from the first impact with the rotor breaker bar. Aprons are shaft suspended at the front and from a spindle in the rear, allowing for continuous gap adjustment as wear progresses. Unlike hammer mills, the open discharge impactor has no screens or grates holding material inside the crusher; material is efficiently processed at high rates for low costs. The rotor breaker bars operate best at specific speed ranges for maximum results. As the total processing capacity and rotors get larger, the number of breaker bar rows increases. On smaller sizes, there are only two rows; on larger rotors, there are four or more rows of rotor breaker bars. The optimum configuration has material delivered to each row of rotor breaker bars in a continuous bed over the width of the rotor for optimum performance and consistent wear part utilization. Some rotor interiors are open, and some are closed depending on feed conditions. For example, concrete recycling requires a closed rotor so rebar doesn’t get entangled. Application The HSI is used for all types of material with compressive strength less than about 20,000 lb. per sq. in. It’s widely used for sand and rock for roads, railways, reservoirs, electrical grid isolation, building materials and many industrial applications such as metal reclamation and recycling.34 IMPACTOR3 400 Wear part metallurgy is critical to proper applications and performance. It’s a good idea to keep a log of these items to determine the best wear part selection and maintenance schedule: feed and discharge information, throughput rates, change out records and measurements of worn parts. Proper selection of wear part metallurgy will result in optimum production rates; longer maintenance cycles and fewer changeouts, which reduce costs in labor, increase the wear part’s life as well as reduce downtime. Materials with high moisture content can be successfully handled by using heaters and air cannons to reduce and dislodge material adhering to the crushing components and chamber. Size Control The spacing between rotor breaker bars and breaker plate aprons can be adjusted to produce different products within one crusher. It is possible to crush soft raw material limestone or high-grade harder limestone for cement or asphalt applications with one crusher by externally adjusting the breaker bar and plate settings. Gap adjustment between the rotor breaker bars and breaker plates by manual or computer controlled systems adjusts the crushing gap so that product particle size distribution remains constant. Maintenance HSIs have multi-turn breaker bars for extended life before changeout. Design simplicity offers safe and easy access for breaker bar replacement and access to all areas of the crushing chamber. Front-opening models eliminate the need for a crane in some cases. Rear-opening models can allow unique installation applications. Summary 34 IMPACTOR 400 HSIs have evolved from humble beginnings through improved crushing chamber design and metallurgy advancements to automation controls. HSIs have proven they are capable of size reduction of all types of material sizes and hardness with minimal maintenance and excellent cubical particle size distribution control. Stedman Machine Co., www.stedman-machine.com Eric Marcotte is inside sales manager for Stedman Machine Company

Stedman Size Reduction Test Lab, Testing Materials From A-Z, Featuring Full-Size Crushing Equipment for Dependable Results. Stedman's unique test lab assures you're buying the right equipment for the job. Our highly-trained and experienced technicians will test your materials on full-size equipment. The Stedman testing program gives you the information you need to select the right crushing and size reduction equipment. Grand Slam™ Impactor, The Stedman 30" x 30" Grand Slam tests secondary and tertiary applications. Gap settings and rotor speeds for specific particle size gradation can be determined. H-Series™ Multi-Row Cage Mill Pulverizer, A wide variety of 2, 4 and 6 row cage designs with a complete range of sleeve/pin spacings. V-Slam™ Impactor, Designed for size reduction of minerals, ores and chemicals. Micro-Max™ Fine Grind Air Swept Mill , Screenless mill capable of producing a wide range of particle sizes. Liquid injection ports standard for grinding heat sensitive materials, or by adding heat capable of grinding and drying in one pass. Aurora™ Single or Dual Rotor Crusher , Designed for higher throughput and smaller particles. Ideal when delumping for pneumatic conveying or unloading. Complete Analysis From Experienced Professionals , The quality data produced from the test of your material helps you estimate operating costs from power consump­tion to wear parts. The written technical report provided to you includes: • Moisture content analysis • Gilson screening of raw feed particle size distribution • Product particle size distribution • Bulk density analysis • Abrasion test results • Estimated metal replacement costs • Horsepower consumption

Between 1972 – 2012 maintenance seminars were conducted on-site at 61 mining and mineral processing operations in Brazil, Canada, Chile, Colombia, Egypt, Indonesia, Ireland, Jamaica, Kyrgyzstan, Mexico, Peru, Saudi Arabia, South Africa, UAE and the US. Most types of minerals were mined and processed and coal extracted, cleaned and shipped. In these open-pit and underground operations maintenance workforces ranged from several hundred to over a thousand. Here is what we learned.

Electrification now competes for attention in underground mining projects. Click the below link to know more: https://www.macleanengineering.com/blog-view-all/ev-momentum-inevitability

Join AirGon staff for closer look into our proven drone mapping workflow. Over the course of 1,000+ successful drone mapping missions, we have perfected our workflow to achieve accurate results in a timely manner. With the addition of our Post-Processing Kinematic direct geopositioning system, Loki, we are able to alleviate the need for dense ground control and cut field time down tremendously without sacrificing accuracy. In this webinar, we will present an overview of the entire AirGon workflow from mission planning to hosting your data and the products we use to power our process. Click download to view the webinar.

Is your dust collection system working at peak efficiency? A quick, do-it-yourself examination may identify symptoms that your system needs a check-up. Enjoy this video from The Dust Efficiency Clinic at Aerodyne. You'll be able to identify five signs that may diagnose a sluggish system so that you can return your system to full efficiency.

Learn why long-time Firmatek client, Brox Industries, chose to move to Firmatek's Drone Solutions program.

Firmatek conducted a study comparing 3 types of equipment across 29 piles ranging in size on a site where we have significant historical data. In this analysis, we look at how two types of drones compare to Lidar.

These are just some of the questions that should be addressed when considering a material handling valve for your application. What type of material is being handled? How much should be spent? What kind of power source can be supplied? This white paper offers an easy how-to-guide for selecting the right material handling valve for your specific application. Simply fill out the form and you will have immediate access to the guide.

Telsmith Engineer, Shamus Coughlin tells us what it takes to go the extra mile for Telsmith customers – like dropping everything to take the world’s longest flight to fix a plant in Indonesia.