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Description: The Powder Metallurgy Information Resource for Component Designers and Engineers No other metal-forming process offers more material choices for structural components than powder metallurgy. Using metal powder and the powder metallurgy process
- Industry: Other Industry
- Location: North America, United States Only, Northeast US Only
- Services: Product Training / Training Manuals, Seminar / Webinar Creation
- Technology / Subject Expertise: Industrial and Manufacturing Engineering
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Description: The Basic Powder Metallurgy (PM) Short Course is the powder metallurgy industry's longest running course—celebrating its 50th anniverary in 2014. If you or your company's employees are new to the PM industry, this is the course for you. This Intensive 3-Day Course Is
- Modality: Classroom (On Campus / Trainer's Facility)
- Technology / Subject: Powder Metallurgy
- Type: Course
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Description: The Powder Metallurgy Information Resource for Component Designers and Engineers No other metal-forming process offers more material choices for structural components than powder metallurgy. Using metal powder and the powder metallurgy process
- Capabilities: Other
- Industry Served: Aerospace, Automotive, Electrical / Electronics, Manufacturing, Medical, Other Market Served
- Location: North America, United States Only, Northeast US Only
- R & D: Materials Research, Scientific Research, Other R&D
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Supplier: Accuris
Description: POWDER METALLURGY
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Description: Powder metallurgy -- Vocabulary
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Description: This new primer is a great introduction to the field of Powder Metallurgy (PM). Those who are new to the field as well as seasoned professionals will benefit from this fresh look at the process and products of PM. The easy writing style of the authors makes this book as enjoyable as it
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Supplier: Accuris
Description: POWDER METALLURGY STAINLESS STEELS: PROCESSING, MICROSTRUCTURES, AND PROPERTIES
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Supplier: Accuris
Description: POWDER METALLURGY SCIENCE
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Description: ISO 3954:2007 specifies procedures for the sampling of powders for powder metallurgical purposes. lt also covers the splitting of the sample into the quantity required for testing.
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Supplier: SAE International
Description: This specification and its supplementary detail specifications cover commonly-available rare-earth/cobalt permanent magnets produced by powder-metallurgy.
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Description: TC 119 Powder metallurgy // SC 4
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Supplier: CSA Group
Description: ISO 3954:2007 specifies procedures for the sampling of powders for powder metallurgical purposes. lt also covers the splitting of the sample into the quantity required for testing.
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Supplier: ASTM International
Description: Standard Terminology of Powder Metallurgy
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Supplier: SAE International
Description: Technical Standard
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Supplier: SAE International
Description: Technical Standard
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Supplier: SAE International
Description: This specification covers a premium-quality, titanium alloy powder-metallurgy product in the form of billets and preforms for forgings.
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Supplier: ASTM International
Description: 1.1 This terminology includes definitions of terms that are useful to the powder metallurgy industry. These definitions are helpful in the interpretation and application of powder metallurgy terms.
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Supplier: ASTM International
Description: 1.1 This terminology includes definitions of terms that are specific to the powder metallurgy industry. These definitions are helpful in the interpretation and application of powder metallurgy terms.
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Description: ISO 28279:2010 specifies the determination of the amount and nature of the surface contamination of powder-metallurgy (PM) parts (i.e. the level of cleanliness of PM parts).
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Supplier: ASTM International
Description: 1.1 This terminology standard includes definitions that are helpful in the interpretation and application of powder metallurgy terms. 1.2 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision
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Supplier: Metal Powder Products Company
Description: several advanced powder metallurgy technologies, including density enhancement techniques, soft magnetism, warm forming, gear manufacturing, and specialized powder metallurgy joining & assembly techniques. Additional capabilities include: Custom Tool & Die Design and
- Density Ratio (% Theoretical Density): Fully Dense, 90% to 99% T.D., 85% to 90% T.D., < 85% T.D., Open Porosity Material
- Forming Process: Mechanical Pressing, Sintering
- Location: North America, United States Only, Midwest US Only
- Material: Aluminum, Brass / Bronze, Copper, Nickel Alloy, Stainless Steel, Steel, Other
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Supplier: GGB
Description: Monometallic Bearing produced by Metallurgic Powder Process CHARACTERISTICS Self-lubricating and maintenance-free with homogeneously distributed solid lubricant (graphite, MoS2) in the metallic matrix High load capacity and temperature ranges up to 600°C possible depending on
- Bearing Surface Material: Graphite / Metal Alloy
- Bushing Type: Sleeve
- Design Units: Metric
- Operating Temperature: -328 to 1112 F
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Description: Hot Pressed Hexagonal Boron Nitride (HPBN/HBN) is an ideal material, which is used to make the Nozzles for molten metal atomization. It is lubricious, machinable, chemical inert, thermal shock resistant and non-wet by molten metal. Specifications or shapes of BN Ceramic Spray Nozzles are very
- Coeff. of Thermal Expansion (CTE): 1.5 to 3.5 µm/m-C
- Compressive / Crushing Strength: 7977 to 31908 psi
- Density: 1.95 to 3 g/cc
- Electrical Resistivity: 1.00E13 to 1.00E15 ohm-cm
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Supplier: CSA Group
Description: ISO 28279:2010 specifies the determination of the amount and nature of the surface contamination of powder-metallurgy (PM) parts (i.e. the level of cleanliness of PM parts).
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Supplier: Accuris
Description: POWDER METALLURGY - AN OVERVIEW
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Supplier: Advanced Abrasives Corp.
Description: Abrasives Corp provides a selection of metallurgical quality, de-agglomerated alumina powders and suspension that are ideal for ferrous applications. Also offered is a high quality, soft drying, colloidal silica suspension that is ideal for non-ferrous applications. Providing the
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Supplier: NETZSCH Premier Technologies LLC
Description: CFS/HD-S High-efficiency Fine Classifier Efficient Solution for Difficult Classifying Needs General This high efficiency air classifier was developed for ultra-fine, sharp separation, and is often used in conjunction with grinding plants. The optimized classifier wheel geometry produces the finest
- Application / Material Processed: Abrasives / Ceramics, Chemicals / Fertilizers, Food Processing / Grain, Metallurgical / Foundry, Mining / Ores / Minerals, Paint Pigments / Adhesive Fillers, Wood / Pulp and Paper
- Equipment Type: Air Classifier / Cyclone
- Process / Operation: Fines Removal / Dedusting, Grading
- Screen Action / Cleaning Device: Air Jet
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Supplier: Quantachrome Instruments
Description: Quantachrome's Material Characterization Laboratory offers a very broad range of measurement services in support of production, and quality assurance requirements for catalysts, ceramics, pharmaceuticals, abrasives, desiccants, cements, powder metallurgy, carbon blacks, ferrites,
- Chemicals / Chemical Products: Catalysts / Initiators, Inorganic Chemicals, Organic Chemicals, Pharmaceuticals / Drugs, Polymers
- Form: Bulk Solids / Granules, Nanomaterials / Nanoparticles, Powders
- Materials / Material Products: Carbon / Graphite, Ceramics, Noble / Precious Metal, Refractory / Reactive (Tungsten, Zirconium), Minerals
- Process Technology: Other
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Supplier: Fluitron, Inc.
Description: Isostatic presses are available for powder metallurgy and other applications in a variety of sizes and pressure ratings. Systems feature the compaction chamber, pressurizing pump, fluid reservoir, piping and a convenient steel console.
- Applications: Powdered Metals
- Equipment Type: Cold Isostatic Press
- Maximum Operating Pressure: 60000 psi
- Maximum Operating Temperature: 400 F
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Supplier: Carrier Vibrating Equipment, Inc.
Description: coal Reclaimed waste coal Coking or metallurgical grade coal Washed & sized bituminous coal Subbituminous or lignite coal prepped for gasification or liquefaction processes Typical Coal Dryer Applications Carrier has developed a
- Applications / Materials Processed: Power / Coal and Coke
- Dryer Type: Fluidized Bed Dryer, Vibratory Dryer
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Supplier: Advanced Powder Products, Inc.
Description: Metal injection molding is a manufacturing process that combines two technologies into one, powder metallurgy with plastic injection molding. The MIM process is tailored for high volume production of small, metal components that have complex geometries and tight tolerances. Because MIM
- Forming Process: Metal Injection Molding (MIM), Sintering, Other
- Location: North America, United States Only, Northeast US Only
- Material: Copper, Stainless Steel, Steel, Titanium Alloy, Other
- Services: Design Assistance, High Volume Production, Prototype / Short Run, Secondary Machining, Sinter Hardening, Tool / Mold Making
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Supplier: Fritsch GmbH - Milling and Sizing
Description: scale. Also ideally suited for mixing of solids or liquids and solids as well as cryogenic grinding. Areas of application Pharmacy, foodstuffs, chemistry, mining and metallurgy, geology and mineralogy, glass and ceramics industry, agriculture and forestry. Method of operation
- Additional Capabilities: Milling
- Application / Industry Use: Food and Beverage Processing, Pharmaceutical Processing, Other Applications / Industry
- Capacity: 3.53E-4 to 0.0067 cubic feet
- Display Type: Digital Numerical Display
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Supplier: Polymer Technologies Inc.
Description: Metal Injection Molding (MIM) is a powder metallurgy process that utilizes plastic injection molding technology to shape a component or part. It is an enabling process that creates opportunities for increased part functionality and lower production cost. Our MIM Process section
- Density Ratio (% Theoretical Density): Fully Dense, 90% to 99% T.D., 85% to 90% T.D., < 85% T.D., Open Porosity Material
- Forming Process: Metal Injection Molding (MIM)
- Location: North America, United States Only, Northeast US Only
- Material: Aluminum, Copper, Nickel Alloy, Refractory Metal, Stainless Steel, Steel, Titanium Alloy
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Supplier: Hangzhou X-mag Inc.
Description: Powder injection molding (PIM) is a molding process that mixes metal or ceramic powder with polymeric binders. This technology combines powder metallurgy and plastic injection molding process and mass-produces metal or ceramic components at low cost. X-mag offers
- Location: East Asia / Pacific Only
- Metal Types: Stainless Steel, Other
- Services Offered: Powder Metal (P/M) Services, Design Assistance, Machining
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Supplier: Fritsch GmbH - Milling and Sizing
Description: , ceramics industry, construction materials industry, metallurgy, electrical industry, glass industry, nuclear research, soil research Method of operation The grinding sample is typically comminuted by high-energy impacts from grinding balls and partially by friction between balls
- Capacity: 3.53E-4 to 0.0159 cubic feet
- Display Type: Digital Numerical Display
- Media Type: Powders or Granules
- Mounting: Benchtop
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Access powder metallurgy case studeis that have all won awards from the Metal Powder Industries Federation's (MPIF) annual Design Excellence Awards Competition. People are often surprised at the everyday uses of powder metallurgy. It's in your car or truck. It's part of (read more)
Browse Datasheets for Metal Powder Industries Federation (MPIF) -
The winners in the 2023 Powder Metallurgy (PM) Design Excellence Awards competition, sponsored by the Metal Powder Industries Federation (MPIF), demonstrate outstanding examples of PM’s diversity and ability to meet critical requirements. From electric vehicles to medical implants, once (read more)
Browse Datasheets for Metal Powder Industries Federation (MPIF) -
Distinguished Service to Powder Metallurgy Awards Announced The Metal Powder Industries Federation's (MPIF) Awards Committee has announced the recipients of the 2023 MPIF Distinguished Service to Powder Metallurgy (PM) Award that recognizes individuals who have (read more)
Browse Standards and Technical Documents Datasheets for Metal Powder Industries Federation (MPIF) -
Powder metallurgy is an established metal forming technology that has existed for over one hundred years. PM allows for optimization of metal properties and produces net-shape or near-net-shape parts minimizing secondary operationa costs. Today, PM uses several primiary methods for produced (read more)
Browse Standards and Technical Documents Datasheets for Metal Powder Industries Federation (MPIF) -
These Forging,Metallic Sintered ,Powder Metallurgy, Forged parts (Forgings) are widely used in the field of oil, chemical, machinery, ship building, spaceflight, electricity etc. which made the product to win the broad market. Our range of Forgings can be customized with regards to shapes, sizes and designs in order to meet the varied requirements of the clients.
(read more)
Browse Uncategorized Products Datasheets for Hangzhou Chinabase Machinery Co., Ltd. -
Two full days of PM sintering knowledge from the leading Industry Experts!
(read more)
Browse Technical Courses and Programs Datasheets for Metal Powder Industries Federation (MPIF) -
Two full days of PM sintering knowledge from the leading Industry Experts!
(read more)
Browse Instructional Seminars and Training Services Datasheets for Metal Powder Industries Federation (MPIF) -
Powder Metallurgy (PM) is an advanced manufacturing metal-forming process for producing high-quality net-shape components for a wide variety of applications. The PM process comprises four categories: press and sinter (P&S); metal injection molding (MIM); metal additive manufacturing (AM (read more)
Browse Datasheets for Metal Powder Industries Federation (MPIF) -
Metal Powder Industries Federation (MPIF)
Powder Metallurgy Engineering Properties: Ensuring Performance
While cost is an important factor, the major considerations for part design and development lie around the properties needed for the application. It is important to consider the powder metallurgy engineering properties most important to successful performance of your component well in advance. Density-related, mechanical, and physical properties should be considered when designing a powder metallurgy part. (read more)
Browse Codes, Standards, and Regulations Datasheets for Metal Powder Industries Federation (MPIF) -
Registration Opens for Powder Metallurgy Short Course Registration has opened for the 2024 Basic Powder Metallurgy Short Course (read more)
Browse Technical Courses and Programs Datasheets for Metal Powder Industries Federation (MPIF)
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Conventional Powder Metallurgy Process
The powder metallurgy (PM) process, depicted in the diagram below, consists of mixing elemental or alloy powders, compacting the mixture in a die, and then sintering, or heating, the resultant shapes in a atmosphere-controlled furnace to bond the particles metallurgically.
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Powder Metallurgy Technology
Powder Metallurgy Technology. Giving particular emphasis to those processes which are of industrial significance, this useful text provides detailed coverage of metal powder production, compaction, sintering, hot consolidation, and much more.
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Machinability of Powder Metallurgy Steels
Machinability of Powder Metallurgy Steels. Providing an overview of all interacting factors in machining, including those applied for improving machinability, this text regards machining as an effective tool for enhancing the precision and extending the shape complexicity range of PM components.
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Controlled Tolerance with Powder Metallurgy
Powder metallurgy (PM) parts can be produced at rates from several hundred to thousands of parts per hour. The key elements of dimensional change include orientation, component size and complexity, run-out, powder formulation, tool wear, sintering and heat treatment, and secondary operations
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Material Choices with Powder Metallurgy
Powder metallurgy (PM), as a manufacturing process, encompasses numerous forming, treating, and finishing operations. In many, but not all cases, the PM process transforms the powder into components used for structural applications, for example, gears, bearings, connecting rods, and parts used
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Machining Powder Metallurgy Parts
With careful tool design, good process capabilities, and CNC closed-loop control of compaction, most machining of powder metallurgy (PM) components is potentially unnecessary. In many cases, the close tolerance of dies and close control of powder choices (control of part-size change due to material
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Economy in Car-making - Powder Metallurgy
Powder metallurgy now provides about 10kg of the components of an average car. The most important raw material in this process is high-performance iron powder, prepared into press-ready premixes.
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Heat Treating Powder Metallurgy Parts
There are several processes and secondary operations that are used to produce powder metal (PM) components, and one of those key processes in PM part production is heat treatment. Heat treating powder metallurgy parts is a necessary process to control the properties of the final part
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Handbook of Residual Stress and Deformation of Steel
POWDER METALLURGY (P/M) is con- cerned with producing metal and alloy powders and converting them to semifinished or finished parts for several consumer and industrial prod- ucts, including simple household appliances, computer disk drives, surgical implements, and sophisticated components of satellites.
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Processing and Fabrication of Advanced Materials VI
Powder and Powder Metallurgy - 19 (1972) pp. 67-71.
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Selected abstracts of metalworking literature September 1984–March 1985
An Assessment of Powder Metallurgy Today and Its Future .
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Selected abstracts of metalworking literature July 1983–March 1984
These high-speed tool steels (M-2, M-3 and T-15) and cut- ting tools made by the HTM process are discussed.--AA E.A. Carlson Progress in Powder Metallurgy 1982, Vol. 38 [Prec.
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Manufacturing process 5
Giessen, powder metallurgy , Additive Manufacturing .
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Landolt-Börnstein
43 5 powder metallurgies and sintered materials.
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Magnesium Magnesium Alloys and Magnesium Composites
… Addition of Sub-Micrometer-Size Al2 O3 5.3.1.1 Mg Reinforced with 0.3 µm Al2 O3 (by Disintegrated Melt Deposition) 5.3.1.2 Mg Reinforced with 0.3 µm Al2 O3 (by Powder Metallurgy —Microwave Sintering) 5.3 …
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Beryllium Chemistry and Processing
Manufacturing processes of alloying, casting, powder metallurgy processing, forming, metal removal, joining, and others are introduced.