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Quartz tubes and halogen tubes differ significantly in terms of heat resistance, main composition, and application range, as detailed below: 1. Heat Resistance 2. Main Composition 3. Application Range Conclusion In summary, quartz tubes are ideal for industrial applications requiring high heat resistance and broad utility, while halogen tubes are favored for their ease of […]

The difference between heating wire and quartz tube is quite simple: heating wire is just a heating wire, while quartz tube heating consists of a heating wire + quartz tube. Naturally, the price of quartz tube heaters is higher. In terms of performance, the differences are as follows: GlobalQT is a leading manufacturer of quartz

This article provides a detailed explanation of the cleaning, drying, and usage methods for laboratory glassware. It is divided into three parts to facilitate understanding and application. I. Cleaning of Glassware 1. Shaking Water Wash Basic explanation of the shaking water wash method. 2. Brushing for Stubborn Stains If there are substances on the inner

The application of high-transparency quartz tubes is expanding, with their increased transparency reflecting significant performance advantages across various fields. Here are the specific benefits of high-transparency quartz tubes in practical applications: 1. Enhanced Light Transmission Efficiency High-transparency quartz tubes mean minimal light loss during transmission, which is crucial for applications requiring high light transmission efficiency,

Quartz tubes start softening when exposed to temperatures above 1265°C. For safety and optimal performance, it’s recommended not to exceed a furnace temperature of 1210°C for more than three hours. The temperature resistance of quartz tubes is directly related to their purity—the higher the purity, the better the heat resistance. Key Recommendations for Using Quartz

In our interactions with customers, we often receive inquiries from users of tube furnaces looking to purchase quartz tubes. To assist our customers in properly using quartz tubes within tube furnaces, we are sharing some practical tips on usage and maintenance. These methods not only ensure the efficient operation of the equipment but also help

Quartz tubes are widely used in high-temperature environments such as semiconductors, optical fibers, and chemical industries due to their excellent thermal resistance. The high-purity silica structure ensures stability under extreme temperatures, but the presence of impurities can significantly impact performance. This article will analyze how impurities affect the high-temperature stability of quartz tubes and explore

Quartz tubes are transparent glass tubes composed primarily of silicon dioxide, widely used in various high-demand applications. Their stability can be affected by different types of impurities, and each type of impurity has a unique impact. By controlling the type and concentration of impurities, the performance of quartz tubes can be optimized to meet the

Quartz tubes (primarily composed of silicon dioxide, SiO2) exhibit chemical stability at high temperatures, which is influenced by several key factors. The primary factors include: 1. Temperature As the temperature increases, the chemical stability of quartz tubes remains generally constant. At high temperatures (above 1100°C), quartz tubes may undergo structural changes such as lattice distortion