Windshields

Tools for stress measurement by Stress Photonics range from general quality control instruments to specific purposed inspection systems for

Windshield Edge Stress

Windshield Edge Stress

The primary tool for measuring windshield edge stress is the EdgeMaster 2 real-time PSA (Photoelastic Stress Analysis) system with integrated edge guide. This easy-to-use handheld system is specifically designed to slide along the edge of the windshield and reflect light off black frit to measure windshield edge stress. Measurements can be logged at key locations.

1. Positioning the EdgeMaster™ 2

Step 1 – Positioning: The first step is positioning. Simply place and hold the EdgeMaster™ 2 on the edge of the glass to position the instrument.

2. Utilization of the Stop Guide

Utilize the “Stop Guide” to help position the EdgeMaster 2 for consistent data collection, sample after sample.

3. Capture the Data

Press the data capture button and the data, along with all related critical values, are placed in a table and data file.

4. Present & Report

After the measurements have been made, presentation and reporting of the data is quickly accomplished in Microsoft Excel.

5. Analyze Data

For in-depth analysis, DeltaVision Software is the solution. The software is license free and quickly installs for detailed data viewing and reporting.
Previous
Next

EdgeMaster 2 for Windshield Edge Stress

The EdgeMaster 2 can be used in the lab, in production, or in situ as shown in the videos below.

EdgeMaster 2 In Lab/Production Environment

EdgeMaster 2 In Situ Operation

Windshield Area Stress

Windshield Area Stress

The GFP1600 is the tool of choice for general area stress measurement. The system can be used with any c-mount lens, including zoom lenses, to conveniently image broad areas and/or close-up details. Combined with a flat-panel illuminator (GFP1600 FPI), full windshield stress images can be acquired easily, in seconds.

Although not as common in windshields, the GFP1600 FPI is a powerful tool to document temper patterns. It measures the average stress through the glass and can show imbalance in the tempering, although it does not explicitly provide the surface stress or (skin stress). Examples can be found in sidelite/backlite applications.

Windshield Crease Line & Defroster

Image above of windshield area stress is an excellent example of the capabilities of the GFP™1600 FPI (Flat Panel Illuminator) to measure stress in large glass samples.

Closeup Crease Line & Defroster

Residual stress of bus bar transitioning into heater elements. Heaters off. Crease line across image. Stress image acquired with the GFP™1600 FPI (Flat Panel Illuminator).

Closeup Crease Line & Defroster

Residual stress of bus bar transitioning into heater elements. Heaters off. Crease line across image. Stress image acquired with the GFP™1600 FPI (Flat Panel Illuminator).

Bus Bar/Heater Transition Close-up

Bus bar transitioning into heater elements. Residual stress only. Heaters are off. Single-ply, no frit. Stress image acquired with the GFP™1600 FPI (Flat Panel Illuminator).

Bus Bar/Heater Transition Close-up

Bus bar transitioning into heater elements. Residual stress only. Heaters are off. Single-ply, no frit. Stress image acquired with the GFP™1600 FPI (Flat Panel Illuminator).

Windshield Area Stress

Area stress created during bend process. This image is an excellent example of the capabilities of the GFP™1600 FPI (Flat Panel Illuminator) to measure stress in large glass samples.

Windshield Area Stress

Area stress created during bend process. This image is an excellent example of the capabilities of the GFP™1600 FPI (Flat Panel Illuminator) to measure stress in large glass samples.

Windshield Air Current Anomalies

Image above of windshield area stress is an excellent example of the capabilities of the GFP™1600 FPI (Flat Panel Illuminator) to measure stress in large glass samples.

Windshield Air Current Anomalies

Image above of windshield area stress is an excellent example of the capabilities of the GFP™1600 FPI (Flat Panel Illuminator) to measure stress in large glass samples.

Windshield Air Current Anomalies

Image above of windshield area stress is an excellent example of the capabilities of the GFP™1600 FPI (Flat Panel Illuminator) to measure stress in large glass samples.

Windshield Air Current Anomalies

The visible light image above of windshield area stress is an excellent example of the capabilities of the GFP™1600 FPI (Flat Panel Illuminator) to measure stress in large glass samples.
Previous
Next

Windshield Thermal Stress

Windshield Thermal Stress

For thermal stress, the GFP1600 FPI is quick enough to monitor slower transient thermal stress events like those induced by window defrosters and wiper heaters. The system can be equipped with any c-mount lens, including zoom lenses, to conveniently image broad areas and/or close-up details.

For faster thermal transients, the GFP2600 real-time inspection system can be used to acquire video. The system is small and nimble; however, the integrated fixed focal length lens requires a bit more set-up changes to acquire a range of field-of-views. Nonetheless, if video is desired, the GFP2600 would be the tool of choice.

Need help? Email our expert support team via our contact form or call us at +1 (608) 224-1230

Need help? Email our support
team via our contact form
or call us at +1 (608) 224-1230

Glass Photonics was founded by Stress Photonics to better serve the glass industry.
All products are manufactured by Stress Photonics Inc.

© 2024 Stress Photonics Inc. All rights reserved.