The advances in coolant system components and construction continue to impact the modern automotive, heavy-duty, locomotive and free standing engine design and performance. The expanding use of lighter metals, advances in nonmetallics, changes in fluid control technologies and coolant filtration in today%u01B3 engines, plus advancing discoveries in EGR and fuel cell technologies in engines of the future are a few of the challenges facing the experts in engine coolant formulating.
Overview
Chapter 1 : Coolant Development in Asia
Chapter 2 : Heavy Duty Diesel Engine Coolant Technolgy
Chapter 3 : Field Test for Carboxylate Inhibitor Level in OAT Coolants
Chapter 4 : A Comparison of Membrane Technologies for Engine Coolant Recycling
Chapter 5 : New Electrochemical Methods for the Evaluation of Localized Corrosion
Chapter 6 : Compatibility Testing of Multi-Vehicle Coolant Chemistries
Chapter 7 : Investigation of Interaction between Coolant Formulations
Chapter 8 : Effect of Fluoride on Corrosion of Cooling Systems
Chapter 9 : Heavy Duty Diesel Engine Cavitation Test
Chapter 10 : Component Durability and High Mileage Performance of a Full Carboxylate Coolant
Chapter 11 : Cavitation Protection Performance of Nitrite Free Organic Acid Based Coolant
Chapter 12 : Accelerated Oxidation and Corrosion Testing of Engine Coolants using a Rotary
Chapter 13 : Coolants at Elevated Temperatures
Chapter 14 : Comparison of Bench Test Methods to Elevate Heavy Duty Coolant Thermal Stability
Appendix
Index
