fbpx

CASE: Argon Gas Retention: Latitude Test on IGUs

In the world of insulating glass (IG) production, maintaining the integrity of insulating gas within IG units is paramount. Sparklike China Chief Representative received a video from Mr. Dave Wang who has insulating glass focused social media channel @KoemmlingDave. The video showcased a latitude test made for insulating glass units, made by our customer, demonstrating their commitment to excellence in argon gas retention in IGUs. In the video Sparklike Handheld device was used to test argon gas fill rate and how the gas remains inside the IGUs despite latitude changes.

Maintain the argon gas levels

The video provides an entertaining look into the process of ensuring optimal gas concentration within these units. The latitude test highlights the advanced but user-friendly techniques used to measure and maintain the argon gas levels. This is vital for IGUs, as the right concentration of argon significantly enhances thermal performance and energy efficiency.

Read also our other customer story “CASE: Boost IGU Quality and Customer Satisfaction: Discover the Impact of Sparklike Handheld™ 3.0 in Enhancing Window Manufacturing

Industry standards and quality control of IGUs

Testing IGUs in different environments is not just about maintaining industry standards but pushing the boundaries of what’s possible in IG production and how to have proof of the quality of the product. Their use of technology in this video and precision emphasizes their interest in quality control and providing the best for the customers.

For anyone in the insulating glass industry or those interested in building practices, this video is a must-watch. It underscores how environment might have an impact on the IGU and the importance of quality control and innovation in the pursuit of creating superior, energy-efficient products.

Watch the video made by @KoemmlingDave below:

Read also

Sparklike Welcomes Nex as Our New Partner in Brazil
CASE: BFRC Leads UK Market with Sparklike Laser Portable™