| Nome |
# |
|
A critical comparison of dynamometer data with pin-on-disc data for the same two friction material pairs – A case study, file e3835195-ae11-72ef-e053-3705fe0ad821
|
473
|
|
Characterization of airborne wear debris produced by brake pads pressed against HVOF-coated discs, file e3835196-53b2-72ef-e053-3705fe0ad821
|
246
|
|
Role of the friction layer in the high-temperature pin-on-disc study of a brake material, file e3835199-8d4e-72ef-e053-3705fe0ad821
|
125
|
|
A preliminary investigation on the use of the pin-on-disc test to simulate off-brake friction and wear characteristics of friction materials, file e3835198-71e7-72ef-e053-3705fe0ad821
|
117
|
|
A concept for reducing PM10 emissions for car brakes by 50%, file e3835197-e377-72ef-e053-3705fe0ad821
|
107
|
|
Modeling Solidification Microstructures of Steel Round Billets Obtained by Continuous Casting, file e3835191-d1a0-72ef-e053-3705fe0ad821
|
99
|
|
Characterization of benzoxazine resins for brake pad friction materials manufacturing, file e99a5067-00d0-4cc2-84b4-5d46528148ab
|
91
|
|
Pin-on-disc study of brake friction materials with ball-milled nanostructured components, file e3835198-303e-72ef-e053-3705fe0ad821
|
84
|
|
Tribological and emission behavior of novel friction materials, file e3835199-0b26-72ef-e053-3705fe0ad821
|
75
|
|
Pin-on-disc study of dry sliding behavior of Co-free HVOF-coated disc tested against different friction materials, file e3835198-e4d8-72ef-e053-3705fe0ad821
|
71
|
|
Microstructural and Tribological Evaluation of Brake Disc Refurbishing Using Fe-Based Coating via Directed Energy Deposition, file e3835199-bf99-72ef-e053-3705fe0ad821
|
71
|
|
Sliding Behaviour of Friction Material Against Cermet Coatings: Pin-on-Disc Study of the Running-in Stage, file e3835196-4ea4-72ef-e053-3705fe0ad821
|
70
|
|
Present knowledge and perspectives on the role of copper in brake materials and related environmental issues: A critical assessment, file e3835198-6c73-72ef-e053-3705fe0ad821
|
67
|
|
Optimization of the chemical composition of a commercial AA6060 alloy to maximize extrudability and mechanical properties, file 68a3b4ef-fa6b-4cfd-bc8f-8d52410c8956
|
59
|
|
Utilization of Metallurgical Slags in Cu-Free Friction Material Formulations, file 1e1b95c4-6279-453a-94c9-5481b12aa4ae
|
49
|
|
Pin-on-disc investigation on copper-free friction materials dry sliding against cast iron, file e3835197-be5a-72ef-e053-3705fe0ad821
|
48
|
|
Effect of roughness on the wear behavior of HVOF coatings dry sliding against a friction material, file e3835198-70bd-72ef-e053-3705fe0ad821
|
47
|
|
Pin-on-disc study of a friction material dry sliding against HVOF coated discs at room temperature and 300 °C, file e3835198-5576-72ef-e053-3705fe0ad821
|
42
|
|
Effect of Steel Counterface on the Dry Sliding Behaviour of a Cu-Based Metal Matrix Composite, file e3835199-b976-72ef-e053-3705fe0ad821
|
42
|
|
Effect of the Addition of Waste Generated during the Plasma Cutting of Aluminum Products on the Friction and Emission Properties of a Commercial Friction Material Formulation, file 4e613fa2-5f01-4f53-a746-1be451656adf
|
23
|
|
A novel path towards limiting non-exhaust particulate matter emissions of a commercial friction material through the addition of metallurgical slag, file cd0435ed-9f3d-42d3-8ef0-9233e6977345
|
22
|
|
Pin-on-Disc Testing of Low-Metallic Friction Material Sliding Against HVOF Coated Cast Iron: Modelling of the Contact Temperature Evolution, file e3835196-4f1c-72ef-e053-3705fe0ad821
|
22
|
|
The Role of Graphitic Carbon Nitride in the Formulation of Copper-Free Friction Composites Designed for Automotive Brake Pads, file 8cab7cdd-4478-4ffb-963b-95713cbf18fd
|
19
|
|
Dry Sliding Behavior and Particulate Emissions of a SiC-graphite Composite Friction Material Paired with HVOF-Coated Counterface, file 8f04a15a-dc65-47e2-bfb7-7f97496e955e
|
13
|
|
Comparative Studies on the Dry Sliding Behavior of a Low-Metallic Friction Material with the Addition of Graphite and Exfoliated g-C3N4, file a45ddcf9-de46-4a6c-9e23-bdcff3940512
|
13
|
|
Pin-on-disc study of brake friction materials with ball-milled nanostructured components, file e3835193-acf4-72ef-e053-3705fe0ad821
|
13
|
|
Comparative Studies on the Dry Sliding Behavior of a Low-Metallic Friction Material with the Addition of Graphite and Exfoliated g-C3N4, file e3835199-4cf1-72ef-e053-3705fe0ad821
|
13
|
|
Optimization of the chemical composition of a commercial AA6060 alloy to maximize extrudability and mechanical properties, file 4628f5c3-74d6-4725-87e7-d35a20bede68
|
8
|
|
Effect of Steel Counterface on the Dry Sliding Behaviour of a Cu-Based Metal Matrix Composite, file e3835196-6fd0-72ef-e053-3705fe0ad821
|
8
|
|
Dry Sliding Behavior and Particulate Emissions of a SiC-graphite Composite Friction Material Paired with HVOF-Coated Counterface, file e3835199-7a07-72ef-e053-3705fe0ad821
|
8
|
|
Pin-on-disc investigation on copper-free friction materials dry sliding against cast iron, file e3835194-3554-72ef-e053-3705fe0ad821
|
5
|
|
Pin-on-disc study of a friction material dry sliding against HVOF coated discs at room temperature and 300 °C, file e3835193-fe06-72ef-e053-3705fe0ad821
|
4
|
|
A new sample preparation protocol for SEM and TEM particulate matter analysis, file 057dddb0-a84d-47e1-9fe0-26b949f1f593
|
3
|
|
Unlubricated sliding of a titanium aluminide alloy against M2 tool steel, file e3835193-3711-72ef-e053-3705fe0ad821
|
3
|
|
Role of the friction layer in the high-temperature pin-on-disc study of a brake material, file e3835193-37cc-72ef-e053-3705fe0ad821
|
3
|
|
Present knowledge and perspectives on the role of copper in brake materials and related environmental issues: A critical assessment, file e3835193-3f6c-72ef-e053-3705fe0ad821
|
3
|
|
Dry sliding behavior and friction layer formation in copper-free barite containing friction materials, file e3835194-3274-72ef-e053-3705fe0ad821
|
3
|
|
Hot Deformation Behavior of Four Steels: A Comparative Study, file e3835196-7e3d-72ef-e053-3705fe0ad821
|
3
|
|
The role of scorching treatment on the wear and emission behavior of friction materials with and without copper, file 3837a7bf-1854-41c1-a402-e505e7c1e47f
|
2
|
|
Tribological behavior of the bronze–steel pair for worm gearing, file e3835192-2054-72ef-e053-3705fe0ad821
|
2
|
|
Stress state dependent fracture behaviour of porous PM steels, file e3835192-21ef-72ef-e053-3705fe0ad821
|
2
|
|
Braking pad-disc system: Wear mechanisms and formation of wear fragments, file e3835192-348b-72ef-e053-3705fe0ad821
|
2
|
|
Effect of roughness on the wear behavior of HVOF coatings dry sliding against a friction material, file e3835193-3b07-72ef-e053-3705fe0ad821
|
2
|
|
A concept for reducing PM10 emissions for car brakes by 50%, file e3835196-361a-72ef-e053-3705fe0ad821
|
2
|
|
Dry sliding behaviour of composite friction materials with varying iron and copper content prepared using the spark plasma sintering technique, file e3835199-e649-72ef-e053-3705fe0ad821
|
2
|
|
Airborne particulate matter from brake systems: An assessment of the relevant tribological formation mechanisms, file 138fed3b-2e32-42a3-944d-2d361ca3901a
|
1
|
|
Rice husk as a natural ingredient for brake friction material: A pin-on-disc investigation, file cada13b8-f7c3-4536-91b4-1b66e7090b3d
|
1
|
|
Microstructure of Cu-Be alloy triboxidative wear debris, file e3835191-c89e-72ef-e053-3705fe0ad821
|
1
|
|
Effect of sliding speed and contact pressure on the oxidative wear of austempered ductile iron, file e3835192-2e61-72ef-e053-3705fe0ad821
|
1
|
|
Ductile-to-brittle transition in a Zeron (R) 100 SDSS in wrought and aged conditions, file e3835192-348a-72ef-e053-3705fe0ad821
|
1
|
|
The relationship between wear of semimetallic friction materials and pearlitic cast iron in dry sliding, file e3835192-359d-72ef-e053-3705fe0ad821
|
1
|
|
Mild sliding wear of Fe-0.2%C, Ti-6%Al-4%V and Al-7072: a comparative study, file e3835192-368d-72ef-e053-3705fe0ad821
|
1
|
|
A systematic approach to design against wear for Powder Metallurgy (PM) steel parts: The case of dry rolling–sliding wear, file e3835192-4f51-72ef-e053-3705fe0ad821
|
1
|
|
Wear and Contact Temperature Evolution in Pin-on-Disc Tribotesting of Low-Metallic Friction Material Sliding Against Pearlitic Cast Iron, file e3835193-310b-72ef-e053-3705fe0ad821
|
1
|
|
Phase composition and wear behavior of NiTi alloys, file e3835193-37db-72ef-e053-3705fe0ad821
|
1
|
|
Effect of deep cryogenic treatment on the mechanical properties of tool steels, file e3835193-385e-72ef-e053-3705fe0ad821
|
1
|
|
Wear behavior of a low metallic friction material dry sliding against a cast iron disc: Role of the heat-treatment of the disc, file e3835193-3ef2-72ef-e053-3705fe0ad821
|
1
|
|
Wear debris from brake system materials: A multi-analytical characterization approach, file e3835193-3eff-72ef-e053-3705fe0ad821
|
1
|
|
Corrigendum to: "wear debris from brake system materials: A multi-analytical characterization approach" (Tribol Int (2016) 97 (249-59) DOI: 10.1016/j.triboint.2015.08.011), file e3835193-3f06-72ef-e053-3705fe0ad821
|
1
|
|
Austempering kinetics of a ductile iron, file e3835193-97c1-72ef-e053-3705fe0ad821
|
1
|
|
Microstructural Characterisation and Hot-Deformation Behaviour of AA6082 Al Alloy Produced by Low-Frequency Electromagnetic Casting, file e3835196-2ab1-72ef-e053-3705fe0ad821
|
1
|
|
A preliminary investigation on the use of the pin-on-disc test to simulate off-brake friction and wear characteristics of friction materials, file e3835196-3619-72ef-e053-3705fe0ad821
|
1
|
|
The contact fatigue behavior of PM steels, file e3835196-9676-72ef-e053-3705fe0ad821
|
1
|
|
Design guidelines for PM parts subject to dry rolling-sliding wear, file e3835196-a801-72ef-e053-3705fe0ad821
|
1
|
|
Sliding Behaviour of Friction Material Against Cermet Coatings: Pin-on-Disc Study of the Running-in Stage, file e3835199-b2ef-72ef-e053-3705fe0ad821
|
1
|
|
Effect of Steel Counterface on the Dry Sliding Behaviour of a Cu-Based Metal Matrix Composite, file e3835199-bb07-72ef-e053-3705fe0ad821
|
1
|
| Totale |
2.207 |