TOMEI
Tomei FORGED PISTON KIT 2JZ 86.5mm
Tomei FORGED PISTON KIT 2JZ 86.5mm
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£1,228.25
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PRODUCT INFO
APPLICATION | Bore Dia. | Displacement | P/N | NOTE | |
---|---|---|---|---|---|
2JZ-GTE | φ86.5 | 3031cc | 1162865212 | ||
φ87.0 | 3086cc | 1162870212 |
※All Piston Kits comes with Piston Rings, Piston Pins and Circlips Included.
■REPLACEMENT PARTS
PRODUCT | SIZE | P/N | NOTE | |
---|---|---|---|---|
Forged Piston | φ86.5 | 1162865214 | ||
φ87.0 | 1162870214 | |||
Piston Ring Set | φ86.5 | 11986561 | ||
φ87.0 | 11987061 | |||
Piston Pin | φ22-60mm | 12031R028 | ||
Circlip | φ22 | 12032R022 |
FEATURE / SPEC
Bore(mm) | Pin Dia.(mm) | Length(mm) | Reces | Comp.Height(mm) | PistonCrownVolume(cc) | Top ring BxT(mm) |
Second ring BxT(mm) |
Oil ring BxT(mm) |
---|---|---|---|---|---|---|---|---|
86.5 | 22 | 60 | ○ | 34.0 | 14.1 | 1.20*3.10 | 1.20*3.90 | 2.00*3.10 |
87.0 |
Development Thema
Since the piston is one of the most important components in an engine assembly, transferring combusted energy to mechanical movement, it must have enough strength to withstand severe temperature fluctuations and high pressures. Stock OEM manufactured pistons are typically made from cast metal and is ideal for mass production, however they cannot sustain the stress when used in highly modified engines that produce over 100 horsepower per cylinder. By using forged metal made from aluminum alloy to construct our pistons, the metal can then endure severe circumstances beyond the stock level. These forged pistons can withstand combustion pressures of 200 kgf and 11 tons of force with the combusted gas temperatures up to 2,500 degrees Celsius. Tomei pistons that are used in highly tuned RB26 and SR20 engines are the same type of pistons used in Group C and F1 racing.
The metal expansion rate in each piston will differ according to the material of the piston and driving conditions. In order to develop the perfect piston for each and every engine types, we have studied the characteristics of heat expansion in aluminum with many prototypes and countless hours on the engine bench dynamometer.
The resulting product is a 3 dimensional profile of the oval and barrel design. We have succeeded to produce a piston in 1/1000 mm of accuracy that applies to the appropriate piston to wall clearance.
Too big of a clearance results in power loss due to escaping gases between the cylinder wall and piston rings (blow-by), with decreased combusted energy transferred to mechanical movement. Another factor that causes blow-by is when the clearance is too large; the piston begins to rock at its pin axis inside the cylinder, causing the piston to scuff the cylinder walls at times.
Perfectly circled pistons are unable to wholly expand into the diameter of the cylinder, especially because of the difference in thermal expansion between the top land and piston skirt areas. This is why in some engines, the contact occurs at the vertical position of the perfectly circled piston because of the uneven expansion.
We selected high performance thinner piston ring for less friction loss and to prevent fluttering. This can also prevent having a floating piston ring by reducing its inertia to help cut down the blowby. In addition to it, there will be more open area for designing between the piston head and piston pin; it is possible to set the size and shape of the piston topland freely. Designed in an ideal spec the pistons strength has been dramatically increased.
By using especially selected forged metal alloys on each part of our products, we succeed to giving our products an extraordinary extraordinary strength while greatly reducing the pistons overall weight. For this reason it is impossible to make all pistons on the same metal core as it may not be beneficial for another engines application.
3 DIMENSION PROFILE
The metal expansion rate in each piston will differ according to the material of the piston and driving conditions. In order to develop the perfect piston for each and every engine types, we have studied the characteristics of heat expansion in aluminum with many prototypes and countless hours on the engine bench dynamometer.
The resulting product is a 3 dimensional profile of the oval and barrel design. We have succeeded to produce a piston in 1/1000 mm of accuracy that applies to the appropriate piston to wall clearance.
Too big of a clearance results in power loss due to escaping gases between the cylinder wall and piston rings (blow-by), with decreased combusted energy transferred to mechanical movement. Another factor that causes blow-by is when the clearance is too large; the piston begins to rock at its pin axis inside the cylinder, causing the piston to scuff the cylinder walls at times.
Perfectly circled pistons are unable to wholly expand into the diameter of the cylinder, especially because of the difference in thermal expansion between the top land and piston skirt areas. This is why in some engines, the contact occurs at the vertical position of the perfectly circled piston because of the uneven expansion.