Temperature Shock Chamber
  • Temperature Shock ChamberTemperature Shock Chamber
  • Temperature Shock ChamberTemperature Shock Chamber

Temperature Shock Chamber

Temperature Shock Chamber is a type of environmental testing used to assess the impact of rapid and extreme temperature changes on products. It is used to evaluate how a product or material performs under harsh environmental conditions.

Model: TS2-120
Capacity: 120L
Interior Dimension: 600*400*500 mm
Exterior dimension: 1700*1850*1700 mm

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Product Description

Climatest Symor® thermal shock test chamber replicates climate conditions that products may experience in real-world, such as exposure to temperature extremes during shipping or storage. The test consists of rapidly heating and cooling a product in a short time. Thermal shock test is designed to evaluate a product's performance under extreme temperature changes, and to determine its ability to withstand sudden changes in temperature.


Specification

Model

TS2-40

TS2-60

TS2-80

TS2-100

TS2-120

TS2-150

Interior Dimension ( W*D*H) mm

400*300*350

400*300*500

400*400*500

400*500*500

600*400*500

500*500*

600

Exterior Dimension ( W*D*H) mm

1350*1600*1670

1350*1600*1850

1350*1800*1950

1350*1800*1950

1700*1850*1700

1450*1850*2050

Capacity

42L

60L

80L

100L

120L

150L

Performance

Heating Zone

RT+20~+150℃ (or customize as per requirement)

Cooling Zone

A: -10℃~-40℃, B: -10℃~-50℃, C:-10℃~-60℃; D:-10℃~-65℃ (or customize as per requirement)

Preheat Zone

RT~+180℃

Heating time: RT~+180℃ about 30 minutes

Precool Zone

RT~-70℃

Cooling time: RT~-70℃ about 65 minutes

Recovery Time

3~5 min

Transfer Time

≤10S

Temp. Fluctuation

0.5℃

Temp. Deviation

2.0℃

Driving Device

Pneumatic driving basket carrying samples to move up and down

Refrigeration

Two sets of original imported hermetic compressors

Materials

Interior Material

Anti-corrosion SUS#304 brushed stainless steel

Exterior Material

Cold rolled steel plate with electrostatic powder spraying

Insulation

Superfine fiberglass wool / polyurethane

System

Controller

Programmable LCD touch screen controller

PID+SSR+Microcomputer balance temperature control system

Cooling System

Two sets of original imported hermetic compressors

Heater

IR Ni-Cr alloy high-speed heating electric heater

Power Supply

380V/480V, 50HZ/60HZ, 3P+5W

Protection

Compressor overheat protection, fan overheat protection, over-temperature protection, compressor overpressure protection, overload protection, water shortage protection.

Ambient Condition

+5~30℃


Feature

Common features of Climatest Symor® temperature shock chamber include:

- Heating and cooling zone: Quickly and efficiently heat and cool products. This allows manufacturers to accurately simulate a variety of temperature changes and quickly assess how their products respond to those changes.


- Programmable temperature profiles: Programmed to vary the temperature at different rates and times, allowing manufacturers to accurately simulate life-like temperature conditions.

•Easy-to-use programmable 7” LCD touch-screen display

•Real-time monitoring (Monitor the controller real-time data, status of signal point and actual output status)

•Controller can store 100 days of historical records

•Data record, storage, download, connection to computer functions.

- Durable construction: temperature shock chamber are designed to withstand the rigors of testing and are made from high-quality materials to ensure their longevity.


- Safety devices: temperature shock chamber are installed with safety devices to ensure the safety of the operators and the product being tested.


Testing area

The testing area of a temperature shock chamber typically consists of two separate compartments, one kept at a very high temperature and one kept at a very low temperature. Products to be tested are placed in a pneumatic driving basket to transfer between high temperature zone to low temperature zone automatically.


Benefits

What can you benefit from Climatest Symor® temperature shock chamber? they include:

1. Identify product weaknesses: Thermal shock testing helps to identify weak spots on the product that can cause it to fail during extreme temperature changes.


2. Ensures product reliability: Thermal shock testing helps to ensure the product’s reliability, as it can withstand extreme temperature changes and remain functional.


3. Prevents costly recall: By conducting thermal shock testing, manufacturers can avoid costly repairs due to product failure caused by extreme temperature changes.


4. Improves product design: Thermal shock testing helps manufacturers to identify design flaws, and they can then modify the product to make it more resilient to extreme temperature changes.


5. Enhances quality assurance: Thermal shock testing is able to ensure that the product meets the desired quality standards and will be able to perform its intended purpose.


Temperature cycle test for integrated circuits (IC)

Good quality and long-term reliability are the competitiveness of an excellent IC product. Quality measurement can be easily settled by simple tests in a IC design & manufacturing plant, but reliability measurement seems more difficult. How long does this product last, who knows?


In order to solve this problem, based on long-term experience in IC design, manufacture and use, professionals have formulated various reliability test standards, such as Life test, Environmental test & Endurance test.


Environmental test is the most important in IC reliability test, it includes PRE-CON, THB, HAST, PCT, TCT, TST, HTST, Solderability Test, Solder Heat Test, most tests should be finished in environmental test chambers. Let’s specifically talk about temperature cycle test (TCT) here.


Temperature cycle test (TCT) is used to determine the performance of integrated circuits (ICs) under extreme temperatures. The purpose is to assess whether the ICs can withstand temperature changes without any degradation in its performance. The test consists of exposing the ICs to extreme temperatures and then observing their response. This test is usually done by placing the ICs into a temperature shock chamber.

Overall, reliability test is to try to remove products with early failure and estimate their yield, predict their service life, and find the cause of failure, especially failures appeared in IC production, packaging and storage, so that the research staff can find out the improvement solutions.


Advantages

A temperature shock chamber is used to rapidly cycle a specimen between extreme temperatures. This test is typically used to assess the thermal shock resistance of a material, or the ability of a material to withstand sudden temperature changes.

So what are biggest advantages of Climatest Symor® temperature shock chamber?

1. Rapidly change the temperature in a short time: temperature shock chamber can rapidly change the internal temperature according to the testing requirements, usually within a few minutes.


2. Accurate temperature control: temperature shock chamber are equipped with advanced temperature control systems, which can accurately control the temperature and humidity in the chamber.


3. Wide range of temperature: Temperature shock chamber is capable of providing different temperature ranges, from -70°C to +200°C.


4. High accuracy: temperature shock chamber are designed to provide high accuracy and repeatability of the test results.


5. Test a wide range of products: temperature shock chamber can be used to test a wide range of products, from electronics to medical products.


Thermal Shock Testing is essential for the reliability evaluation of Electronic Components, Automotive Parts and Medical Devices, Climatest Symor® maufactures a variety of climatic test chambers, specializing in temperature control technology, welcome for possible collaboration!





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