Nissan VQ25HR and VQ35HR Engine

Use to be dealing with VQ25DE, VQ30DE and VQ35DE engine gasket, seldom deal with the VQ25HR and VQ35HR engine gasket, again, just upload some fact on this engine from wikipedia for sharing.

VQ25HR

The 2.5 L VQ25HR (for "High Revolution" or "High Response") is only offered on longitudinally-mounted engine vehicles which tend to be rear wheel drive or all-wheel drive. Bore and stroke are 85 mm and 73.3 mm, with a compression ratio of 10.3:1. It produces 235 PS (173 kW; 232 hp) @6,800 rpm and 194 ft·lbf (263 N·m) @4,800 rpm. It has dual CVTC for both intake and exhaust, microfinished camshafts and a redline of 7,500 rpm.

It is fitted to the following vehicles:

2006–present Nissan Skyline V36 250GT Sedan - 235 PS (173 kW; 232 hp)
2007–present Nissan Fuga 250GT - 223 PS (164 kW; 220 hp)
2011–present Infiniti G V36 G25 Sedan - 218 hp (163 kW)
2010–present Infiniti EX J50 EX25 Crossover SUV - 235 PS (173 kW; 232 hp)

VQ35HR

VQ35HRThe VQ35HR update was first seen in the US in the 2007 G35 Sedan models, which debuted in August 2006. Nissan updated the VQ line with the addition of the 3.5 L VQ35HR (for "High Revolution" or "High Response"). It produces 315 PS (232 kW; 311 hp) (US market: 306HP due to new US federal measurement regulations) at 6,800 rpm and 37 kg·m (363 N·m; 268 ft·lbf) at 4,800 rpm, using a compression ratio of 10.6:1. As of 2009, the Infiniti EX35 produces 297 hp and the same torque presumably due to tighter regulations. It has NDIS (Nissan Direct Ignition System) and CVTC with hydraulic actuation on the intake cam and electromagnetic on the exhaust cam. Redline is 7,500 rpm. Reportedly over 80% of the internal components were redesigned or strengthened to handle an increased RPM range sporting a lofty 7,500 rpm redline. A new dual-path intake (two air cleaners, throttle bodies, etc.) lowers intake tract restriction by 18 percent and new equal-length exhaust manifolds lead into mufflers that are 25 percent more free-flowing for all around better airflow. The new intake is said to benefit from a ram-air effect adding three horsepower at 60 mph (not accounted for by SAE testing methods). The electrically actuated variable valve timing on the exhaust cams to broaden the torque curve is new over the "DE" engine. The new engine block retains the same bore and stroke, but the connecting rods were lengthened and the block deck was raised by 8.4 mm to reduce piston side-loads. This modification, along with the use of larger crank bearings with main bearing caps reinforced by a rigid ladder-type main cap girdle to allow the engine reliably rev to 7500 rpm. With an increase in compression ratio from 10.3:1 to 10.6:1 these changes add 6 more horsepower (306 total + 3 hp ram air effect not measured by SAE testing = 309 hp). Peak torque is up 8 pound-feet from the old "DE" engine (260 vs. 268) and the torque curve is higher and flatter across most of the rpm range, and especially in the lower rpm range.

The VQ35HR fitted to the following vehicles:

2007–2008 Infiniti G35 Sedan
2007–2008 Nissan Skyline V36 350GT Sedan
2007–2009 Nissan 350Z
2006–2009 Nissan Fuga 350 GT
2008–present Infiniti EX35 Crossover SUV
2009–present Infiniti FX35 Crossover SUV
2009–2010 Infiniti M35
2011–present Infiniti M35h (hybrid variant)
2010–present Nissan Fuga Hybrid

Proton GEN2 and PESONA Rocker Cover

As we know starting from the Proton GEN2, Proton had change their engine to CAMPRO S4PH engine, and than it continue use on their fleet after the GEN2 such as PESONA, SAGA BLM and EXORA.

Although the engine is in the same family, which their cylinder head gasket design are same, but there are design changes on the rocker cover and intake manifold side for different model, once they said that it may be diffrentiate from those CAMPRO and CAMPRO-CPS.

As Proton GEN2 using the fire made rocker cover, which I think is much lighter, it is unknown why the rocker cover is change to aluminium type for PESONA.

Marine Boat Engine Gasket

Use to be involve only in automotive passenger car engine gasket, so those engine gasket use on marine boat engine is consider stranger for me, just put some of the photo for sharing as we can see it really have a very difference design for those run on the land.

Honda F20C Engine

Extract the above photo from a wall photo at one of my facebook friend, and feel curious on the cylinder head gasket design that it seem not so familiar in local market, after looking into the catalogue and found it seems like for Honda F20C engine, here some extraction from wikipedia.

The F20C and F22C1 are inline-4 engines produced by Honda. They are one of the few Honda 4-cylinder automobile engines that are designed to sit longitudinally for rear wheel drive.

These engines are a distant relative to the F-series engines found in the mid 90s Honda Accord and Prelude. To get most out of the compact sized engine, Honda technicians utilised technology derived from Honda's racing engines. The F20C and F22C1 have two overhead cams with roller followers, a ladder-frame main bearing stiffener, a VTEC system for both the intake and exhaust camshaft, Fiber-Reinforced Metal cylinder liners (FRM), molybdenum disulfide-coated piston skirts for reduced friction, and uses a timing chain.

The VTEC system consists of two separate cam lobe profiles. Variable cam phasing is not used. Roller followers are used to reduce friction in the valvetrain. The rocker arms are constructed using metal injection molding.

The engine block is constructed of aluminum with fiber-reinforced metal sleeve. A timing chain drives an intermediate gear, which drives the cams. The pistons are forged aluminum. The intake plenum was designed with minimal volume for fast engine response, and a 14lb flywheel was fitted until 2003. A high-flow catalyst is supplied along with an exhaust air-injection system, which greatly decreases catalyst light-off time and cold emissions.

Great Wall Motor Wingle 2.5

It is interesting to see this China made truck shown up at some shopping centre, this truck from Great Wall Motor names as Wingle is carrying with a 2.5 litle diesel engine.

This GWTCI 2.5 diesel engine is so call made from German Bosch, which actually I can't recall any other automotive engine from Bosch. So it is quite curious for me on the OEM engine gasket for this engine, is actually made in German or made in China?

Nissan GT-R Engine VR38DETT

The VR engine is a 3.8 L V6 piston engine from Nissan. The engine is the product of further development of the widely successful VQ engine series, in particular drawing experience from the JGTC racing engines as well as Nissan's VRH engines from vehicles such as the Nissan R390 GT1.

VR38DETT

This 3.8L twin-turbo DOHC V6 engine is currently only used in the Nissan GT-R. Fully dressed with the first set of catalytic converters, turbos, turbo outlet pipes, the motor weighs 608 lb (276 kg). It is currently the only version of the VR engine in production.

The engine sports 24 valves controlled by dual overhead camshafts with variable valve timing (intake only). The block is cast aluminum with 0.15 mm (0.006 in) plasma-sprayed cylinder liner bores. The turbine housings for the two IHI turbochargers are integrated into the exhaust manifolds to decrease weight and bolster vehicle balance. The engine also sports a pressurized lubrication system controlled thermostatically.

The VR38DETT is hand assembled in a special clean-room environment at Nissan's Yokohama facility by specially trained technicians. Each engine is assembled by only one master technician("Takumi").

Other pertinent features of the VR38DETT include:

-Continuously Variable Valve Timing Control System (CVTCS) on intake valves
-Aluminum cylinder block with high-endurance/low-friction plasma-sprayed bores
-Nissan Direct Ignition System
-Iridium-tipped spark plugs
-Electronic drive-by-wire throttle
-Pressurized lubrication system with thermostatically controlled cooling and magnesium oil sump
-Fully symmetrical dual intake and low back-pressure exhaust system
-Secondary air intake system to rapidly heat catalysts to peak cleaning efficiency
-50 State LEV2/ULEV

Source: http://en.wikipedia.org/wiki/VR38DETT

Ok, now is the question, where do the owner of this GT-R in Malaysia source their engine gasket?

Cork Rubber Gasket

A gasket material that comprised of cork binded together with an elastomer. It is manufactured by combining the cork, glycerine-glue, and a rubber binder under heat and pressure (usually 70% cork to 30% binder). The elastomers are added to provide sealability and chemical compatibility while helping to resist fungus, acid and weather conditions. Cork rubber sheet material is cost effective, good for low-bolt load applications, light weight, long shelf life, easy to handle, less sticking to flanges, resistant to fluid penetration, absorbs vibration and has low thermal conductivity. This style of gasket material is commonly used in automotive applications such as oil pan, valve cover and timing gear cover gaskets because of its good suitability in oil. It should not be used in strong alkaline and acid conditions because it will be chemically attacked and the cork particles will degrade. Cork rubber material comes in a wide variety of elastomers, such as EPDM, Natural Rubber, Synthetic Rubber, Neoprene and Nitrile, to best suit the chemical resistance requirement of the gasket.


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