Refine Your Search

Topic

Author

Search Results

Technical Paper

A Predictive Process for Spring Failure Rates in Automotive Parts Applications

1991-02-01
910356
This paper discusses an analytical technique for computing the failure rate of steel springs used in automotive part applications. Preliminary computations may be performed and used to predict spring failure rates quickly at a very early stage of a product development cycle and to establish program reliability impact before commitment. The analytical method is essentially a combination of various existing procedures that are logically sequenced to compute a spring probability of failure under various operational conditions. Fatigue life of a mechanical component can be computed from its S-N curve. For steels, the S-N curve can be approximated by formulae which describe the fatigue life as a function of its endurance limit and its alternating stress. Most springs in service are preloaded and the actual stress fluctuates about a mean level. In order to compute an equivalent alternating stress with zero mean, an analytical method based on the Goodman Diagram is used.
Technical Paper

A Plan for Progress: The SAE Strategic Plan and Strategic Planning Process

1990-04-01
900930
While long-range planning is important to any organization, because of the constant turnover of volunteer leaders, a long-range strategic plan is crucial for maintaining continuity in a non-profit organization. SAE's strategic planning process resulted in a plan, evaluated and revised annually, which outlines the purpose, missions, and goals of the Society and describes action plans and steps necessary to achieve those goals. SAE's exceptional growth in all areas during the last ten years-for example, membership has grown from 37,000 in 1980 to 58,000 today-is evidence of the success of the process and the plan.
Technical Paper

A Parametric Approach for Rapid Design and Analysis of Automotive HVAC Defrost Systems

2001-03-05
2001-01-0584
The overall vision of this project was to develop a new technology that will be an enabler to reduce design and development time of HVAC systems by an order of magnitude. The objective initially was to develop a parametric model of an automotive HVAC Windshield Defrost Duct coupled to a passenger compartment. It can be used early on in the design cycle for conducting coarse packaging studies by quickly exploring “what-if” design alternatives. In addition to the packaging studies, performance of these design scenarios can be quickly studied by undertaking CFD simulation and analyzing flow distribution and windshield melting patterns. The validated geometry and CFD models can also be used as knowledge building tools to create knowledge data warehouses or repositories for precious lessons learned.
Technical Paper

A Novel Air Hybrid Engine Configuration Utilizing Cam-Based Valvetrain

2011-04-12
2011-01-0871
In this work, a new air hybrid engine configuration is introduced in which cam-based valvetrain along with three-way and unidirectional valves make the implementation of different air hybrid engine operational modes possible. This configuration simplifies the air hybrid engine valvetrain significantly and relaxes the necessity of using fully flexible valvetrain in air hybrid engines. Utilizing the proposed configuration allows compression braking (CB), air motor (AM), startup and conventional modes of operation to be realized. The proposed configuration is modeled in GT-Power and the deceleration of a typical vehicle, utilizing only regenerative braking system, is simulated. The efficiency of the system in storing the vehicle's kinetic energy is determined using second law definition for efficiency. The stored energy can be used to either start up the engine or run the off-engine accessories. These two modes are studied and compared.
Technical Paper

A Connectorized Passive Optical Star for Automotive Networking Applications

1994-03-01
940798
This paper introduces for the first time a fully connectorized passive optical star for use with plastic optical fiber that addresses all automotive application requirements. A unique mixing element is presented that offers linear expandability, uniformity of insertion loss, and packaging flexibility. The star is constructed of all plastic molded components to make it low cost and produceable in high volume and is single-ended to facilitate vehicle integration. The star is connectorized to facilitate assembly into the vehicle power and signal distribution system.
X