i'm new to the car world...and i have a stock mitsubishi cs3 lancer...1.3 engine.....i'm asking you guys is it possible to get a lil umph without swappin the engine????i jus want a lil agression when i rev...i'm more of a "slam/drop" guy......so i want the stance but when i rev...i want the appeal of going fast....any help would be gr8ly appreciated.
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i need help with my engine
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Just start with the basics, more air but cooler air, dont waste your time with a short ram intake. Go for a full cold air intake. Next, larger exhaust, header and high flow cat. Don't go over 2.25 inch. Run Premimum and look into advancing your timing a few degrees. Maybe see if the 1.6 injectors swap in. And maybe an ECU chip?
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Modern internal combustion engines are subject to a constant optimization process in terms of performance and production. This results in ever increasing demands on fasteners. Engine bolts must show high elastic resilience under load and have excellent ductility in order to ensure the necessary clamp load after tightening as well as in operation and a reduction of stress amplitude under dynamic loading.
Thanks,
Japanese auto auction agent
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The carbureted engines today are not effective for the consumer, is more practical injection engines as consumption and noise due to the exhaust pipe has evolved much over the years.
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Originally posted by Jlyons617 View PostJust start with the basics, more air but cooler air, dont waste your time with a short ram intake. Go for a full cold air intake. Next, larger exhaust, header and high flow cat. Don't go over 2.25 inch. Run Premimum and look into advancing your timing a few degrees. Maybe see if the 1.6 injectors swap in. And maybe an ECU chip?
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Originally posted by aberk80 swan View PostModern internal combustion engines are subject to a constant optimization process in terms of performance and production. This results in ever increasing demands on fasteners. Engine bolts must show high elastic resilience under load and have excellent ductility in order to ensure the necessary clamp load after tightening as well as in operation and a reduction of stress amplitude under dynamic loading.
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