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Test specimen for a block-on-ring test; F r is resistive force, F n...

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in Tribotesting > Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 5.2 Test specimen for a block-on-ring test; F r is resistive force, F n is load More
Image

Adhesive wear results on selected platings in a block-on-ring test. In all ...

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in Material Modifications (Coatings, Treatments, etc.) for Tribological Applications > Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 12.10 Adhesive wear results on selected platings in a block-on-ring test. In all instances, the platings were on the rings, and the block counterface was type 440C stainless steel. More
Image

Measuring wear on block-on-ring test specimens; w , width; d , depth

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in Tribotesting > Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 5.9 Measuring wear on block-on-ring test specimens; w , width; d , depth More
Image

The ring test. (a) Schematic of metal flow. (b) Example rings upset to vari...

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in Flow Stress and Forgeability > Cold and Hot Forging: Fundamentals and Applications
Published: 01 February 2005
Fig. 4.19 The ring test. (a) Schematic of metal flow. (b) Example rings upset to various reductions in height More
Image

Setup used in the ring test for the measurement of interface heat transfer ...

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in Temperature and Heat Transfer > Cold and Hot Forging: Fundamentals and Applications
Published: 01 February 2005
Fig. 6.8 Setup used in the ring test for the measurement of interface heat transfer coefficient. [ Burte et al., 1989 ] More
Image

Comparison of computed and experimental load-stroke curves (ring test)

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in Inverse Analysis for Simultaneous Determination of Flow Stress and Friction > Cold and Hot Forging: Fundamentals and Applications
Published: 01 February 2005
Fig. 8.5 Comparison of computed and experimental load-stroke curves (ring test) More
Image

Wear results of block-on-ring tests on various plastics versus titanium and...

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in Tribology of Plastics and Elastomers > Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 11.13 Wear results of block-on-ring tests on various plastics versus titanium and 316 stainless steel rings. POM, polyoxymethylene; PTFE, polytetrafluoroethylene; PE, polyethylene; PPS, polyphenylene sulfide; CF, carbon fiber; PI, polyimide; PEEK, polyetheretherketone; PAI, polyamide More
Image

Coefficient of friction of various ceramics in block-on-ring testing, where...

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in Tribological Properties of Ceramics, Cermets, and Cemented Carbides > Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 10.5 Coefficient of friction of various ceramics in block-on-ring testing, where * indicates thermal spray coatings More
Image

Finite element model of ring compression test. (a) Initial ring. (b) Compre...

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in Friction and Lubrication > Cold and Hot Forging: Fundamentals and Applications
Published: 01 February 2005
Fig. 7.8 Finite element model of ring compression test. (a) Initial ring. (b) Compressed ring (50% height reduction) (shear factor m = 0.1). ( Gariety et al., 2003 ) More
Image

O-ring SCC test specimen (a) and stressing plug (b). The O-ring is stressed...

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in Evaluation of Stress-Corrosion Cracking[1] > Stress-Corrosion Cracking: Materials Performance and Evaluation
Published: 01 January 2017
Fig. 17.11 O-ring SCC test specimen (a) and stressing plug (b). The O-ring is stressed by pressing it onto the plug, as shown in (c). Source: Ref 17.14 More
Image

Adhesive wear of various self-mated couples in a block-on-ring wear test

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in Material Modifications (Coatings, Treatments, etc.) for Tribological Applications > Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 12.9 Adhesive wear of various self-mated couples in a block-on-ring wear test More
Image

Test specimens for ring versus cylinder wear testing

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in Tribotesting > Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 5.1 Test specimens for ring versus cylinder wear testing More
Image

The thrust-washer test uses an annulus rotating on a fixed ring. The rotati...

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in Tribotesting > Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 5.10 The thrust-washer test uses an annulus rotating on a fixed ring. The rotating member is often plastic and the fixed member is soft or hard steel; a is area More
Image

Schematic illustration of cylinder/ring push specimen and test fixture for ...

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in Welding and Joining of Beryllium and Beryllium Alloys > Beryllium Chemistry and Processing
Published: 01 July 2009
Fig. 23.26 Schematic illustration of cylinder/ring push specimen and test fixture for shear testing of brazed joints. Source: Grant 1979 More
Image

Metal flow in ring compression test. (a) Low friction. (b) High friction

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in Friction and Lubrication > Cold and Hot Forging: Fundamentals and Applications
Published: 01 February 2005
Fig. 7.7 Metal flow in ring compression test. (a) Low friction. (b) High friction More
Image

Theoretical calibration curves for ring compression test having indicated O...

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in Friction and Lubrication > Cold and Hot Forging: Fundamentals and Applications
Published: 01 February 2005
Fig. 7.9 Theoretical calibration curves for ring compression test having indicated OD: ID:thickness ratios. (a) 6:3:2 ratio. (b) 6:3:1 ratio. (c) 6:3:0.5 ratio. [ Altan et al., 1983 ] More
Book Chapter

High Strain Rate Tensile Testing

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Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2004
DOI: 10.31399/asm.tb.tt2.t51060251
EISBN: 978-1-62708-355-3
... in determining strain rate effects in tension by conventional tensile tests and covers expanding ring tests, flat plate impact tests, split-Hopkinson pressure bar tests, and rotating wheel tests. high strain rate testing load rate tensile testing HIGH STRAIN RATE TENSILE TESTING is necessary...
Abstract
High strain rate tensile testing is used to understand the response of materials to dynamic loading. The behavior of materials under high strain rate tensile loads may differ considerably from that observed in conventional tensile tests. This chapter discusses the processes involved in determining strain rate effects in tension by conventional tensile tests and covers expanding ring tests, flat plate impact tests, split-Hopkinson pressure bar tests, and rotating wheel tests.
View PDF for content titled, High Strain Rate Tensile <span class="search-highlight">Testing</span>
Book Chapter

Flow Stress and Forgeability

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By Manas Shirgaokar
Series: ASM Technical Books
Publisher: ASM International
Published: 01 February 2005
DOI: 10.31399/asm.tb.chffa.t51040025
EISBN: 978-1-62708-300-3
... Abstract This chapter explains how to determine flow stress and forgeability using data from tensile tests, compression tests, ring tests, and torsion tests. It describes sample preparation, tooling and equipment, test procedures, error sources, and data plotting techniques. It also provides...
Abstract
This chapter explains how to determine flow stress and forgeability using data from tensile tests, compression tests, ring tests, and torsion tests. It describes sample preparation, tooling and equipment, test procedures, error sources, and data plotting techniques. It also provides a significant amount of experimentally derived flow stress data, including K and n values for steel, copper, and aluminum alloys, C and m values (at various temperatures) for steel, aluminum, copper, titanium, and other alloys, and average flow stress for several alloys determined by compression testing.
View PDF for content titled, Flow Stress and Forgeability
Book Chapter

Temperature and Heat Transfer

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By Gangshu Shen
Series: ASM Technical Books
Publisher: ASM International
Published: 01 February 2005
DOI: 10.31399/asm.tb.chffa.t51040059
EISBN: 978-1-62708-300-3
... determination of heat transfer and friction in one test is desired. Thus, ring tests were selected in Burte’s experiments [ Burte et al., 1989 ]. Using ring tests, the interface friction and interface heat transfer coefficients were determined at the same time. The effects of forging pressure, deformation rate...
Abstract
This chapter discusses the factors that influence temperature in forging operations and presents equations that can be used to predict and control it. The discussion covers heat generation and transfer, the effect of metal flow, temperature measurement, testing methods, and the influence of equipment-related parameters such as press speed, contact time, and tooling geometries.
View PDF for content titled, Temperature and Heat Transfer
Image

Wear of silicon carbide (SiC) versus various ring materials in a block-on-r...

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in Tribological Properties of Ceramics, Cermets, and Cemented Carbides > Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 10.11 Wear of silicon carbide (SiC) versus various ring materials in a block-on-ring test (in accordance with ASTM International G77), where * indicates thermal spray More