Search Results

The goal of this work was to find combinations of detergent and friction modifier additives that would produce high metal/metal friction with good clutch material performance. A baseline formulation was used with various combinations of five different detergents with five different friction modifiers. Two bench tests were used to assess performance. A CVT (Continuously Variable Transmission) Element-on-Ring Test was used to study metal/metal performance, and a VSFT (Variable Speed Friction Tester) procedure with cellulose based friction material was used to evaluate the μ-v (friction coefficient-velocity) clutch performance. Interestingly, a 400 TBN magnesium sulfonate detergent combined with a phosphorus containing friction modifier showed a special synergy.

New technologies are being commercialized across the automotive industry to address demands for improved fuel economy, emissions reductions, and improved customer satisfaction. Push-belt continuously variable transmissions (b-CVTs) are beginning to command a significant percentage of the market now dominated by manual and conventional automatic transmissions. In addition, automobile manufacturers plan to introduce the first traction drive toroidal-CVTs to the market place within the next five years. A review of the relative benefits and limitations of each of these automatic transmissions exists in the literature. In this paper we consider how the performance requirements of each of these automatic transmission systems impact automatic transmission fluid technology. The physical characteristics and screen test performance of two commercial ATFs, a b-CVTF, and two traction fluids were examined.

Nylon is used as a material in the design of various components of automatic transmissions. Pump rotor guides and thrust washers are among components designed from nylon. Nylon must be compatible with automatic transmission fluid (ATF). An immersion test using nylon strips in various test fluids was developed. The nylon color change was independent of the physical properties (as measured by change of tensile force) of the material. Testing indicated that nylon color change is catalyzed by oxidation effects, and the change in tensile strength is related to thermal degradation. An automatic transmission fluid (ATF) containing calcium sulfonate detergent showed better oxidation resistance and caused less loss of tensile strength in nylon 6 (PA6).

The Aluminum Beaker Oxidation Test (ABOT) is a bench test required for official Ford MERCON® automatic transmission fluid (ATF) qualification. A continuous quality improvement approach identified inconsistent pump performance as the leading cause of test variability. A modified pump was developed to obtain consistent performance. The modified pump had a higher flow rate and a greater inlet suction than the original pump. An improved data acquisition and control system monitored and controlled the major test variables including pump operation. Our baseline fluid control limits decreased by 70% using the new ABOT system. From an experimental matrix, the new ABOT differentiated good, borderline and fail samples. The experimental data also show that a continuous 300 hour test sequence does not adversely affect test results. This paper documents the development of the modified pump and the results of baseline and matrix testing using the new ABOT system.