Automotive Engines Theory and Servicing

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Presentation transcript:

Automotive Engines Theory and Servicing Ninth Edition Chapter 32 Gaskets and Sealants

OBJECTIVES 32.1 Discuss the need for gaskets and sealants. 32.2 Describe head gaskets and the types of head gaskets. 32.3 Discuss cover gasket materials and gasket failures. 32.4 Discuss the purpose and function of oil seals. 32.5 Discuss the purpose and function of assembly sealants.

INTRODUCTION (1 OF 2) Gaskets and sealants are used in engines to seal gaps and potential gaps between two or more parts. Gaskets and sealants must be able to withstand: Temperatures to which the engine part may be exposed during normal operation

INTRODUCTION (2 OF 2) Vibrations produced in the engine and the accessories that are attached to the engine Acids and other chemicals that are found in and throughout an engine Expanding and contracting at different rates

FIGURE 32–1 Gaskets are used in many locations in the engine.

HEAD GASKETS (1 OF 2) The head gasket is under the highest clamping loads. It must seal passages that carry coolant and often is required to seal a passage that carries hot engine oil. The most demanding job of the head gasket is to seal the combustion chamber.

FIGURE 32–2 Gaskets help prevent leaks between two surfaces.

HEAD GASKETS (2 OF 2) As a rule of thumb, about 75% of the head bolt clamping force is used to seal the combustion chamber. The remaining 25% seals the coolant and oil passages. Perforated steel core gaskets Multilayered steel gaskets

FIGURE 32–6 Multilayer steel (MLS) gaskets are used on many newer all-aluminum engines as well as on engines that use a cast block with aluminum cylinder heads. This type of gasket allows the aluminum to expand without losing the sealing ability of the gasket.

COVER GASKET MATERIALS Cover Gasket Requirements Cork Gaskets Fiber Gaskets Synthetic Rubber Gaskets Rubber-coated Metal Gaskets Formed In Place Gaskets Plastic/Rubber Gaskets

FIGURE 32–7 Left to right: Cork-rubber, paper, composite, and synthetic rubber (elastomer) gaskets.

FIGURE 32–8 Rubber-coated steel gaskets have replaced many oil pan gaskets that once had separate side rail gaskets and end seals.

FIGURE 32–9 Formed in place gaskets often use silicone rubber and are applied at the factory using a robot. Check gasket manufacturers for the correct gasket replacement.

FIGURE 32–10 A typical intake manifold gasket showing the metal washer at each fastener location which keeps the gasket from being compressed too much.

GASKET FAILURES (1 OF 2) Detonation may cause extreme pressure to be exerted on the armor of the head gasket, causing it to deform. A plugged PCV system can increase crankcase pressure resulting in engine gasket failures such as oil pan, valve cover, timing cover, and main oil seals.

GASKET FAILURES (2 OF 2) Improper installation such as incorrect torquing sequence can cause gasket failure. Fretting is a condition that can destroy intake manifold gaskets, caused by the unequal expansion and contraction of two different engine materials.

FIGURE 32–11 This intake manifold gasket was damaged due to fretting FIGURE 32–11 This intake manifold gasket was damaged due to fretting. Newer designs allow for more movement between the intake manifold and the cylinder head.

OIL SEALS (1 OF 2) Oil seals allow the shaft to rotate and seal the area around the shaft to prevent oil or coolant from leaking. Seals come in varied sizes and styles.

OIL SEALS (2 OF 2) Most seals use a steel backing for strength and a variety of sealing materials, including: Buna-N Viton® (fluorocarbon) Teflon® (polytetrafluorethylene, also called PTFE)

FIGURE 32–12 A rear main seal has to be designed to seal oil from leaking around the crankshaft under all temperature conditions.

ASSEMBLY SEALANTS RTV Silicone Anaerobic Sealers Nonhardening Sealers Antiseize Compounds Sealant Summary

FIGURE 32–13 Room-temperature vulcanization (RTV) is designed to be a gasket substitute on nonmachined surfaces. Be sure to follow the instructions as printed on the tube for best results.

FIGURE 32–14 Anaerobic sealer is used to seal machined surfaces FIGURE 32–14 Anaerobic sealer is used to seal machined surfaces. Always follow the instructions on the tube for best results.

FIGURE 32–15 The strength of the thread locker depends on whether the fastener is to be removed by hand (blue). High-strength thread locker (red) can only be removed if heated.

FIGURE 32–16 Applying antiseize compound to the threads of a bolt helps prevent the threads from galling or rusting.

SUMMARY (1 OF 2) Gaskets are used to fill a space or gap between two objects to prevent leakage from occurring. There are many types of gaskets including cylinder head gaskets, valve cover gaskets, and timing cover gaskets. Rubber or contact cement is used to hold a gasket in place.

SUMMARY (2 OF 2) RTV and anaerobic sealers are commonly used to seal engines. Sealers are used to help gaskets seal.