DID YOU KNOW THE ASSEMBLY OF YOUR PRODUCT COULD BE A QUARTER TURN AWAY FROM A MAJOR RECALL?
PEAK INNOVATIONS ENGINEERING HAS THE HIGHLY TECHNICAL TEAM TO DESIGN, TEST, VALIDATE, AND ENHANCE THE BOLTED JOINTS WITHIN YOUR PRODUCT APPLICATION.
Joint development and testing is all we do, so we do it better than other internal and external options. Why consume your resources when we can take care of it for you quickly, definitively and cost effectively?
WHY OUTSOURCE JOINT TESTING?
Peak innovations Engineering is an ideal choice for joint testing and development. By relieving your engineers of joint testing, they can focus on engineering improvements increasing revenue and sales. Our experience and expertise allows us to optimize joints, propose cost reduction of labor and material and troubleshoot poor yield.
WHY USE PEAK?
Peak innovations Engineering offers independent third-party fastener, joint or equipment testing. Our in-house lab accommodates immediate testing of proposed designs or changes. Peak’s specialized testing can optimize your process parameters including; torque, force, time, etc. Many of our tests can be performed at the customer’s location if requested.
How to Optimize COF Testing?
COF (Coefficient of Friction) is a value that represents the partnership between the force of friction plus the standard force between two objects. When this could sound confusing, it truly is crucial for businesses that manufacture lawn and garden bags and plastic bags for mulch. COF is very important for each mailer and all lawn and garden bags palletized for transport and display. Throughout everyday life, friction happens. This unseen force either permits or hinders the movement of two surfaces that come into make contact with. By controlling COF, companies that manufacture and sell plastic bags for mulch, mailers, lawn, and garden purposes can optimize functionality and stop issues specific to storage and transportation.
Purpose of Performing Coefficient of Friction or COF Testing
The coefficient of friction test will be the very best test that assists in measuring the stacking capability in the plastic films. It contributes to stopping the accidents that usually happen on account of friction in packaging, transportation, loading, materials, etc. There may very well be variation within the friction resulting from the uneven thickness of the films, which could also cause uneven strength of films. The COF in the plastic films is usually tested easily using a COF testing machine i.e.co-efficient of friction tester. It is actually broadly made use of to verify foils, papers, plastic films, and other associated material. For discovering dynamic and static friction, customers can also adjust the speed of packages by testing the coefficient of friction.
The coefficient of friction can also be called COF is usually evaluated very easily by offering or sliding the facade of two materials against each other. The dimensional value with the coefficient of friction is actually measured as the ratio in the force required to slide the material façade for the force that is perpendicular to the surfaces. The lower friction of co-effective shows that the surfaces are slicker that signifies the material is less resistant to the sliding motion. The co-efficient of frictional value is directly connected to the slipping properties from the films.
Tips on How to Carry Out the Test with COF Tester?
COF testing may be performed effortlessly only by sliding a plane below a dead weight. The instrument is designed as per several standard test approaches supplied by distinctive standardization authorities like ASTM D1894, ASTM D202, ASTM D4918, ISO 8295, and TAPPI T815. As per the standards, the film sample is attached firmly to the base on the block. This block is connected to a load cell, and it aids in measuring the frictional force between the block and plane.
The friction (COF) tester coefficient is made to measure the static and kinetic coefficients of friction of plastic film, sheeting, and related components. The COF tester measures the coefficient of friction of a test sample by pulling a weighted sled across a test sample and measuring the force. The COF tester involves a motorized test stand, digital force gauge, weighted COF sled, and COF table. The COF tester features a wide speed selection of 10~305 mm/min and a long stroke of 230 mm, allowing it to conform using a wide selection of COF test requirements.
THE PROOF IS IN THE REPORTING!
Critical analysis of the testing data and subsequent reporting is our brand signature.
Experiencing Joint Failure?
We can design, test, validate, and enhance new and existing bolted joints.
Get Fastener Help Now!