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Cite this document
There is an unwavering demand for improved engine coolant technologies, including alternative freeze-depressing molecules, cooling efficiency and inhibitor chemistries. You’ll find that dynamic nature of the engine coolant industry captured in this compilation.
Data on various coolants is presented and evaluated utilizing the following standards:
ASTM D1384 Standard Test Method for Corrosion Test for Engine Coolants in Glassware
ASTM D2570 Standard Test Method for Simulated Service Corrosion Testing of Engine Coolants
ASTM D4340 Standard Test Method for Corrosion of Cast Aluminum Alloys in Engine Coolants Under Heat-Rejecting Conditions.
Improved Aluminum Passivation for Heavy-Duty Coolants
Sandra Claeys, Serge Lievens, Jurgen De Kimpe, Paul Van de Ven
Development of Extended Life Coolant Technologies—Past, Present, and Future
Non-Aqueous Coolant Perspectives
Integration of Nano-Fluids into Commercial Antifreeze Concentrates With ASTM D15 Corrosion Testing
Carboxylate Based Coolant With Superior Oxidation Stability
Protocol for Evaluating the Compatibility of Engine Coolants
The Effects of Residual Controlled Atmospheric Brazing Flux on Engine Coolants
The Effect of Long-Term Intermittent Service on Elastomers in Aqueous Engine Coolants
Committee: D15
DOI: 10.1520/STP1556-EB
ISBN-EB: 978-0-8031-7583-9
ISBN-13: 978-0-8031-7542-6