OEM Supplier for 4-PCS Locking Pliers Sets with Jackets Wholesale to United Arab emirates
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With our rich experience and considerate services, we have been recognized as a reliable supplier for many international buyers for OEM Supplier for 4-PCS Locking Pliers Sets with Jackets Wholesale to United Arab emirates, we are seeking for extensive cooperation with honest customers, achieving a new cause of glory with customers and strategic partners.
Basic Information
■Model Number: RL-DLQ025
Additional Information
■Material: A3# steel (Q235) or 45# steel
■Size: 5”, 6.5″, 7″, 10″
■Surface Treatment: Nickel-plated, Zinc-plated, Black Oxide, Electrophoresis
■Heat Treatment: Optional
■Package: Blister Card, Suction Card, Double Blister Card
■OEM: Acceptable
■HS Code: 8203200000
■Samples: For FREE
■Delivery Time: Always 30 working days depending on the order quantity
■Packing: By standard cartons
Product Description
■Mainly used for clamping parts to rivet, weld, grind and so on, which is characterized by the powerful clamp force produced by the jaw. It can lock tight so that the parts won’t fetch away. Besides, jaws have a lot of levels to adjust for the use of different thickness of parts, and it also can be used as a wrench.
■Flexible using, long life and good tenacity.
■The screw tuning button can give the best clamp size easily.
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These are pure crap and not worth the $15 they cost.
These are on christmas item display at Walmart for the 2013 X-Mas season near the tool isle. They come in an attractive box and look like they might be functional for $15.
Nope… They Suck A$$.
Do not buy these to give to someone. They will be returned, thrown out, or most likely sit in a drawer or the bottom of a tool chest never used.
This isn’t your opportunity to get a set of self adjusting channel locks.
Aircooled Volkswagen Type 1 engine building video: Top End Install Part 1, Type 1, 1500-1600cc.
In this segment, VW engine building guru Mike Smith shows how to measure the combustion chamber volume inside the head, in order to calculate the compression ratio of the engine. Other subjects covered here include proper positioning of the piston rings inside the jug, and assembling the piston/piston pin/jug on the rods. The deck height of the VW engine is also measured here, and that volume is included in the compression calculations.
Formulas for setting compression ratio:
Swept volume of one cylinder = Engine size divided by four
Bore (in mm’s) x Bore (in mm’s) x Deck Height (inches) x .01996 = Deck Volume (in cc’s)
Head cc’s + Deck cc’s + 1 cylinder swept volume
———————————————————————- = CR (:1)
Head cc’s + Deck cc’s
Depending on the octane you are running, your target compression ratio should be set at factory level, or preferably lower, for street gas. Use machined, not stamped, spacers under the jugs to lower the C.R. Note that the compression ratio on an engine assembled with stock, brand new parts is almost 7.7:1. The exception to the new-parts rule might be if you were using the very latest Mexican factory dual-port heads, because some of them have 57-58cc combustion chambers, which allows you to run the smallest possible deck height.
These C.R. recommendations revolve around running a stock cam. If you are building a performance motor that uses a more radical camshaft, there is some room to run more compression. The reason for that is because cams with more duration are less efficient at lower rpm’s, so the dynamic C.R.(which is the C.R. actually seen by the motor) is less at lower rpms. The tendency to detonate is also most prevalent at lower rpm’s. However, as the octane level of pump gas continues to plunge, there still isn’t much room for high C.R. on the street. In most of California, for instance, the best pump gas you can get is only 91 octane.
The compression ratio used on the 1970’s Beetles was 7.3:1, but the chemical composition and octane level of the gas was different back then. That octane rating system(RON) involved a different testing procedure than the rating system used today, which is (RON+MON)/2. It is now called the CLC rating system.
In 1978 or so the VW factory tried to end the confusion over what gas to run by claiming that “91 RON equals 87 CLC”. This statement was made in the 1978 bus owners manual, but it is conspicuously absent from the 1979 Bentley manual, which recommends only RON-rated fuel.
If your compression is set too high for the octane you are running, there is a risk of engine damage. The best way to maximize your engine’s efficiency is to run the tightest deck and the biggest possible squish area. You will need the largest possible head cc’s to do this.
There is further relevant information on octane ratings and compression in the excellent internet gasoline faq. Here is an excerpt regarding octane requirements for carbureted engines with non-management systems (ratings are CLC):
Compression Ratio: Octane Number Requirement: Brake Thermal Efficiency( Full Throttle )-
6:1 81 25%-
7:1 87 28%-
8:1 92 30%-
9:1 96 32%-
It appears that, at 7.0:1 compression, a minimum octane level of 87 is required. Since the octane test engine used here is water cooled, you must increase the octane requirements slightly to compensate for your hotter air-cooled engine. For instance, that 7.0:1 compression setting could require an octane level of 88 or more on the VW engine.
For more specific information on the problems caused by running high compression with street gas take a look at the writings of Gene Berg. He goes into detail discussing the damaging effects of things like engine pinging and knocking that isn’t loud enough to hear.