Lab Testing
Certified
ISO 9001:2015
Certified
ISO 14001:2015
Certified
UL
Everything you need. One place.
Our Capabilities
Build your brand, leave the product build to us
We provide the best quality Lab Testing for customers around the world.
designed to help alleviate some of these pain points by ensuring that your products are thoroughly tested and meet the required specifications.
At our lab, our experienced team perform a wide range of tests to ensure the quality, safety, and compliance of your products. We offer the following testing services:
- This is done to verify that the molded parts meet the required specifications, including measurements like length, width, and height, and tolerances. Our testing includes the use of advanced CMM machine and Smartcopes.
- At GIH, we use a Hexagon CMM to perform dimensional testing on plastic injection molding products.
- This CMM is equipped with a 360-degree probe, which allows us to measure the dimensions of the product from any angle, ensuring accuracy and consistency in our measurements.
- To ensure that the plastic material being used for the injection molding process meets the necessary standards, tests like tensile strength, impact resistance, and hardness testing are performed.
- We perform product safety testing to ensure that your products meet regulatory requirements for safety. Our testing includes drop testing, vibration testing, and more.
- Automated Optical Inspection (AOI) is used to inspect the Printed Circuit Board Assemblies (PCBAs) for manufacturing defects, such as missing components, incorrect polarity, or incorrect placement.
- X-ray testing is used to detect defects that are not visible to the naked eye, such as voids or cracks in solder joints, internal shorts, or insufficient solder paste.
- In-Circuit Testing (ICT) checks the functionality of individual components on the PCBA, such as resistors, capacitors, and diodes.
- This includes a range of tests to ensure that the wire harness is properly functioning, such as continuity testing, insulation resistance testing, and short circuit testing.
- To ensure that the wire harness can withstand harsh environmental conditions, tests like temperature cycling, humidity, salt spray, vibration, and shock testing are performed.
Your Lab Testing needs are with us
Frequently Asked Question
Equipment used for molding testing includes coordinate measuring machines (CMMs), tensile testers, hardness testers, rheometers, and thermal analyzers.
The purpose of molding testing is to evaluate the physical and mechanical properties of molded products to ensure they meet the required specifications. This includes testing for defects, such as warping, sink marks, flash, and voids.
Quality control plays a critical role in molding testing by ensuring that the molded products meet the required specifications and perform as intended.
The purpose of PCBA testing is to evaluate the electrical and mechanical properties of printed circuit board assemblies to ensure they meet the required specifications. This includes testing for defects, such as soldering defects, component placement errors, and electrical shorts or opens.
Equipment used for PCBA testing includes automatic optical inspection (AOI) machines, in-circuit testers (ICTs), and functional testers.
Quality control plays a critical role in PCBA testing by ensuring that the printed circuit board assemblies meet the required specifications and perform as intended.
The purpose of wire harness testing is to evaluate the electrical and mechanical properties of wire harnesses or cable assemblies to ensure they meet the required specifications. This includes testing for defects, such as incorrect wiring, pinched wires, and loose connections.
Samples for wire harness testing are typically prepared by taking a section of the wire harness or cable assembly and connecting it to the testing equipment.
Quality control plays a critical role in wire harness testing by ensuring that the wire harnesses or cable assemblies meet the required specifications and perform as intended.