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E-mail
zhuyanyiqi@163.com
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Phone
18653195187
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Address
No. 288 Wuyingshan Middle Road, Huaiyin District, Jinan City, Shandong Province
Product Categories
- Liquid leakage tester
- Glass bottle heat-resistant impact tester
- Thin film heat sealing strength tester
- Thin film friction coefficient tester
- Cone joint comprehensive performance tester
- Micro leakage sealing tester
- Glass bottle impact tester
- Medical packaging tearing force tester
- Ampoule breaking force tester
- Automatic Bottle Cap Torque Tester
- Glass bottle bottom thickness and wall thickness tester
- Glass Bottle Vertical Load Tester
Jinan Zhuyan Instrument Equipment Co., Ltd
Glass bottle heat-resistant impact testing machine
NegotiableUpdate on 02/14
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Overview
The TSR-10 glass bottle thermal shock tester is designed according to the requirements of the national standard for hot and cold water tank testing methods. The instrument adopts electric heating and uses a high-precision temperature controller and water circulation system to ensure that the temperature difference between the hot and cold water tanks meets the national standard testing requirements. It is a testing instrument for various breweries, glass bottle manufacturers, quality inspection agencies, and pharmaceutical production enterprises.
Product Details
The TSR-10 glass bottle thermal shock tester is designed according to the requirements of the national standard for hot and cold water tank testing methods. The instrument adopts electric heating and uses a high-precision temperature controller and water circulation system to ensure that the temperature difference between the hot and cold water tanks meets the national standard testing requirements. It is a testing instrument for various breweries, glass bottle manufacturers, quality inspection agencies, and pharmaceutical production enterprises. The instrument design and manufacturing strictly follow the national standard requirements for various parameters of materials and accessories, providing reliable guarantees for accurate testing and experimentation for users.
Glass bottle heat-resistant impact testing machineTest Principle
The glass bottle thermal shock resistance testing machine sets the temperature of the high and low temperature slots of the thermal shock tester to a predetermined temperature difference. After a certain number of glass bottle samples are subjected to high temperature heating in the high temperature slot, they are quickly placed in the low temperature slot and taken out to observe the rate of sample damage after thermal shock.
Main features of glass bottle heat-resistant impact testing machine
1. Intelligent embedded operating system, user-friendly interface design, what you see is what you get;
2. 8-inch color capacitive touch screen, high-definition display effect, sensitive touch operation;
3. Testing and stopping are equipped with high-quality metal buttons, making it more convenient and efficient to use;
4. Servo motor controls the pressurization process, runs smoothly, and applies pressure smoothly;
5. Double protection device for transparent windows to prevent glass debris from splashing out, making operation safer;
6. Equipped with an automatic reset program, the pressurization system will automatically reset after testing is completed;
7. Open structure with transparent windows, allowing for observation of blasting conditions at any time;
8. Standard configuration micro printer, capable of printing experimental data at any time;
9. Standard RS232 data communication interface, convenient for data export and external connection;
Precautions for maintenance and use of instruments
1. It should be stored in a dry laboratory and protected against moisture, dust, and corrosive gases indoors. When not in use temporarily, cover it with a dust cover.
To ensure measurement error, the indoor temperature should be stable during measurement.
During the use and handling of the instrument, severe vibrations should be prevented.
4. The laboratory should maintain a temperature of 23 ± 1 ℃, a relative humidity of 50 ± 5% RH, no indoor vibration, no electromagnetic interference, and minimal air flow.
5. There should be no vibration power supply around the installation environment of the instrument.
Glass bottle heat-resistant impact testing machineTest Principle
The glass bottle thermal shock resistance testing machine sets the temperature of the high and low temperature slots of the thermal shock tester to a predetermined temperature difference. After a certain number of glass bottle samples are subjected to high temperature heating in the high temperature slot, they are quickly placed in the low temperature slot and taken out to observe the rate of sample damage after thermal shock.
Main features of glass bottle heat-resistant impact testing machine
1. Intelligent embedded operating system, user-friendly interface design, what you see is what you get;
2. 8-inch color capacitive touch screen, high-definition display effect, sensitive touch operation;
3. Testing and stopping are equipped with high-quality metal buttons, making it more convenient and efficient to use;
4. Servo motor controls the pressurization process, runs smoothly, and applies pressure smoothly;
5. Double protection device for transparent windows to prevent glass debris from splashing out, making operation safer;
6. Equipped with an automatic reset program, the pressurization system will automatically reset after testing is completed;
7. Open structure with transparent windows, allowing for observation of blasting conditions at any time;
8. Standard configuration micro printer, capable of printing experimental data at any time;
9. Standard RS232 data communication interface, convenient for data export and external connection;
Precautions for maintenance and use of instruments
1. It should be stored in a dry laboratory and protected against moisture, dust, and corrosive gases indoors. When not in use temporarily, cover it with a dust cover.
To ensure measurement error, the indoor temperature should be stable during measurement.
During the use and handling of the instrument, severe vibrations should be prevented.
4. The laboratory should maintain a temperature of 23 ± 1 ℃, a relative humidity of 50 ± 5% RH, no indoor vibration, no electromagnetic interference, and minimal air flow.
5. There should be no vibration power supply around the installation environment of the instrument.
