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2017-05-04 ...
  • May 4-5, 2017 (8:30 a.m. - 4:30 p.m.) - Troy, Michigan
  • October 17-18, 2017 (8:30 a.m. - 4:30 p.m.) - Shanghai, China
Training / Education Classroom Seminars
Improving vehicular fuel efficiency is of paramount importance to the global economy. Governmental regulations, climate change and associated health concerns, as well as the drive towards energy independence, have created a technical need to achieve greater fuel efficiency. While vehicle manufacturers are focusing efforts on improved combustion strategies, smaller displacement engines, weight reduction, low friction surfaces, etc., the research involved in developing fuel efficient engine oils has been less publicized.
2017-04-24 ...
  • April 24-28, 2017 (8:00 a.m. - 6:00 p.m.) - Troy, Michigan
Training / Education Classroom Engineering Academies
The Transmission Engineering Academy covers the sciences of automotive passenger car and light truck engineering principles and practices necessary to effectively understand, develop, specify and start the design process. Topics include advances in manual, automatic, automated manual, and continuously variable transmission technology, materials and processes applicable to the major components within these transmissions, calibration of these systems unto themselves and integration into the full vehicle powertrain.
2017-04-05
Event
This session describes the design, modeling and performance validation of cylinder heads, lubrication systems and pumps, coolant systems and pumps, intake manifolds, exhaust manifolds, and engine block structures.`
2017-04-05
Event
In the industry there is continuing work on understanding the interaction of lubricating fluids with driveline hardware and on improving the fluids used in these applications. In this session are presented a variety of papers dealing with different applications where the interaction of driveline fluids with equipment is important.
2017-04-04
Event
The industry continues to work on understanding the interaction of lubricating fluids with engine hardware in order to improve vehicle efficiency, durability, and performance. The Engine Lubricants Session presents a variety of papers dealing with advances in engine oils and their relationship to improved hardware performance.
2017-04-04
Event
This technical session focuses on fundamental and applied research that lowers frictional energy losses and enhances reliability and durability of automotive components. The topics include, but not limited to engine and drivetrain tribology, seals, bearing and gear lubrication, materials tribology, surface engineering, lubricants and additives, computer-aided tribology, tribotesting, as well as friction, wear and lubrication fundamentals.
2017-04-04
Event
This technical session focuses on fundamental and applied research that lowers frictional energy losses and enhances reliability and durability of automotive components. The topics include, but not limited to engine and drivetrain tribology, seals, bearing and gear lubrication, materials tribology, surface engineering, lubricants and additives, computer-aided tribology, tribotesting, as well as friction, wear and lubrication fundamentals.
2017-04-04
Event
This session describes the design, modeling and performance validation of cylinder heads, lubrication systems and pumps, coolant systems and pumps, intake manifolds, exhaust manifolds, and engine block structures.`
2017-04-04
Event
This session describes the design, modeling and performance validation of cylinder heads, lubrication systems and pumps, coolant systems and pumps, intake manifolds, exhaust manifolds, and engine block structures.`
2017-04-04
Event
The industry continues to work on understanding the interaction of lubricating fluids with engine hardware in order to improve vehicle efficiency, durability, and performance. The Engine Lubricants Session presents a variety of papers dealing with advances in engine oils and their relationship to improved hardware performance.
2017-04-04
Event
This session reviews advancements in heavy-duty engine oil technology and test methodology, focusing on achieving future emissions, durability and fuel efficiency expectations both in North America and Europe.
2017-03-28
Technical Paper
2017-01-0364
Hiroko Ohtani, Kevin Ellwood, Gustavo Pereira, Thiago Chinen, Siddharthan Selvasekar
A variety of performance fluids and lubricants are used in automobiles and in automotive manufacturing processes. These include engine oils, driveline fluids, paints, forming lubricants, and many others. Controlling the rheological properties of these fluids is crucial to achieve desired performance and product qualities. In this study, we have applied Extensional Rheometry to gain a new insight on the performance of automotive fluids. Traditionally, rheological experiments focused on the study under shearing flow. However, the real operations contain both shear and ‘extensional’ (or ‘elongational’) flow components. In this paper, we have investigated the extensional behavior of automotive fluids using a Capillary Breakup Extensional Rheometer. (The extensional viscosity express how “sticky” the fluid is, whereas shear viscosity means how “slimy” the fluid is.)
2017-03-28
Technical Paper
2017-01-1089
Jose Grande, Julio Abraham Carrera, Manuel Dieguez Sr
Exhaust Gas Recirculation system (EGR) has been used for years for NOx emissions control in commercial vehicle applications. Emissions limits are tighter with every regulation while durability requirements are increasing, so EGR systems manufacturers must be able to provide high performance and robust designs even with high thermal loads. Commercial vehicle market is characterized by lower production rates than passenger car programs, but same engine has multiple applications with totally different engine calibrations. In some cases it is necessary to design two or more EGR systems for an engine platform, with the consequent impact on cost and development timeline. The optimal design of and EGR system needs to take into consideration several topics related with performance and durability: efficiency and pressure drop, fouling, boiling, thermal fatigue, vibrations, pressure fatigue and corrosion among others.
2017-03-28
Technical Paper
2017-01-0889
Allen Comfort, Adam Brandt, Edwin Frame
Operational energy can be roughly defined to be the energy required to sustain military forces and weapons platforms for military operations. Energy is fundamental to the ability of U.S. military to project and sustain its military forces. For existing vehicle fleets there are few ways to reduce vehicle fuel consumption that don’t involve expensive retrofitting. Replacing standard lubricants with lubricants that reduce fuel consumption is one practical and inexpensive way to improve fleet fuel efficiency and reduce operational energy. In an effort to identify gear lubricants that can reduce the fuel consumption of its vehicle fleet, the U.S. Army is developing a stationary axle efficiency test stand and procedure. In order to develop this capability, in-service vehicle fuel consumption testing was completed on light, medium, and heavy tactical wheeled vehicles following a modified SAE J1321 test procedure.
2017-03-28
Technical Paper
2017-01-1083
Chawin Chantharasenawong
This study focuses on achieving a lower overall lap time at SAE Formula Student competition through a modification to the standard intake system. The lower lap time is achieved by widening the range of engine RPM which produces torque higher than 90% of the maximum value and lowering the engine RPM corresponding to the maximum torque. An intake system with ‘variable runner length’ is introduced to the 2015 racecar of KMUTT team. The values of intake lengths are determined from the wave equation with the goal of producing over 90% of the maximum torque of the baseline configuration over a range of engine RPM. Computer simulations are performed to determine the pressure at engine entry at various runner lengths. Finally, a prototype variable runner length intake system with linear motor actuators is constructed and installed on the racecar. Chassis dynamometer tests are performed to determine the engine torque for 3,000 – 10,500 RPM at all interested runner lengths.
2017-03-28
Technical Paper
2017-01-1087
Pengfei Zang, Zhe Wang, Yu Fu, Chenle Sun
The Linear Internal Combustion Engine-Linear Generator Integrated System (LICELGIS) is different from conventional crank-based engine for reducing frictional losses by eliminating the crankshaft. Thus, the LICELGIS piston stroke is not constrained geometrically and the system compression ratio is variable. During steady-state operation, the LICELGIS converts the fuel chemical energy into electric power with piston assembly reciprocating motion, which can for example be used as a range-extender in hybrid electric vehicles. The LICELGIS scavenging process is prerequisite and key for the system steady-state operation, which has remarkable influence on mixture gas and, eventually, on engine combustion performance. In order to achieve high scavenging performance, a LICELGIS is investigated in this paper. The LICELGIS motion characteristics and scavenging process were analyzed.
2017-03-28
Technical Paper
2017-01-1077
Nicolas Arnault, Nicolas BATAILLEY, Arnaud MARIA, Laurent BECHU
PSA Group, SOLVAY and SOGEFI have teamed-up to produce the first Plastic Diesel Fuel Filter fully made of recycled polyamide 66, ready for mass-production. This has been achieved by using the brand new plastic compound developed by SOLVAY Engineering Plastics. This material is 100% recycled from airbag wastes, providing a premium material able to stand demanding applications requirements supplied though circular economy, which is quite unusual in automotive industry yet. SOGEFI has tested this material through its existing plastic injection process, and tested the parts on extensive bench validation tests. It confirmed that this material is fully compatible with standard injection process, and that all the tests have been passed successfully. Finally, PSA Group has driven the choice of the tested parts: DV engine 1.6l Euro6b application, homologated the material grade and evaluated the whole validation process.
2017-03-28
Technical Paper
2017-01-0461
R. Rajendran, Ravikumar N, S.S.M Abdul Majeed
Brake disc provides friction force with minimum weight loss on application of brake. The pad material only experiences more wear and friction. Disc and pad materials are selected to give a stable and high coefficient of friction (0.25-0.40). COF is directly proportional to braking force generated and inversely proportional to the stopping distance. Brake pad is mainly produced from asbestos materials. Asbestos is an excellent material for brake pad application.. Considering the environmental pollution and human health safety, the asbestos cannot be used and there is a need to find an alternate material. The aim of the study is to identify a new material for replacement of pad material in practice. In this study, wear, hardness and friction properties of E glass fibre with epoxy resin and cashew friction dust composite are studied and compared with brake pad material in practice.
2017-03-28
Technical Paper
2017-01-1081
Chongzhi Zhong, Tieqiang Fu, Chunbei Dai, Taiyu Zhang, Ke Wu, Wangwen Gu
To study on the influence of L/D, diameter of the adsorption tube, purge tube and air tube about carbon canister, based on the ORVR canister and ordinary canister whether with single or double cavity. The results demonstrate that the similar of L/D,efficient work ability and efficient adsorption rate of the carbon canister with partition is better than the one without partition; the diameter of adsorption tube is smaller or as similar as purge tube. For ORVR canister, it is larger than purge tube and similar as air tube, which makes more effective for canister gas adsorption from the fuel tank. The vehicle purge flow test results demonstrate that the maximum purge flow of double cavity canister is bigger than that of single cavity, while the total amount of purge flow is similar with each other. The change of the quality about double cavity canister is smaller than that of single cavity. The results provide theoretical basis for canister design.
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