Description
For most artifical accelerated tests in laboratory, getting a consistent testing results with outdoor is the most important purpose. Prior to cyclic corrosion testing, conventional salt spray (a continuous salt spray at 35�贑), was the most popular way to simulate corrosion in a lab. Because conventional salt spray methods failed to simulate the natural wet/dry cycles of the outdoors, test results frequently provided poor correlation to outdoors. In order to better simulate the complex and changeable external natural environment, cyclic corrosion test has gradually been considered as an important and effective method for the life assessment of industrial products.
The Cyclic Corrosion Test Cabinets is also called CCT Cabinets. Some industrial products need to be exposed to repeated cyclic salt spray, dry and static environment with high humidity and low humidity. These tests were initially switched between several test chambers manually. The multi-functional Cyclic Corrosion Test Cabinets solves this problem well, and realizes the automatic test of these cycles in a chamber.
In a typical cyclic corrosion cabinets, all specimens are exposed to a series of different environments in a repetitive cycle that simulates the outdoors . Simple cycles, such as Prohesion, may consist of cycling between salt fog and dry conditions. More sophisticated automotive methods may ask for multi-step cycles that incorporate humidity, dry air or condensation, along with salt spray and dry-off.
Within one chamber,users can cycle easily through a series of the most significant corrosion environments. Even extremely complex test cycles can easily be programmed with the controller. Biuged CCT Cabinets can perform salt spray, Prohesion, and 100% humidity for most cyclic automotive tests.
The Cyclic Corrosion Test Cabinets developed and produced by Biuged sets and controls various parameters through the touch screen, and combines multiple tests such as salt spray corrosion, humidity (high temperature and high humidity, low temperature and low humidity), air drying (hot drying and air drying) to simulate a variety of cyclic corrosion tests. Of course, special cyclic corrosion test can also be simulated through the combination of other accessories. The instrument can also conduct neutral salt spray test (NSS), acetic acid salt spray test (AASS), copper accelerated acetic acid salt spray test (CASS), water spray test, damp heat test, drying test and standard atmospheric environment test separately.
Standards
GB/T 1771-2007《Paints and varnishes - Determination of resistance to neutral salt spray(fog)》
GB/T 31588.1-2015/ISO11997-1:2005《Paints and varnishes—Determination of resistance to cyclic corrosion conditions—Part 1: Wet(salt fog)/dry/humidity》
GB/T 2423.17-2008 《Envrionmental testing for electric and electronic products - Part 2: Test method - Test Ka: Salt mist》
GB/T 2423.18-2000《Inspection methods for environmental testing equipments for electric and electronic products—Part 2: Test methods—Test Kb:Salt mist, cyclic(sodium chloride solution)》
GB/T 2423.3-2006/IEC6008-2-78-2001 《Inspection methods for environmental testing equipments for electric and electronic products—Part 2:Testing method—Test Cab:Damp heat,steady state》
GB/T 5170.8-2008《Inspection methods for environmental testing equipments for electric and electronic products - Salt mist testing equipments》
GB/T 10125-1997《Corrosion tests in artificial atmospheres--Salt spray tests》
GB/T 10586-2006 《Specifications for damp heat testing chambers》
GB/T 10587-2006《 Specifications for salt mist testing chambers》
GB/T 10593.2-2012 《Method of the measuring environmental parameters for electric and electronic products - Part 2:Salt mist》
GB/T 12000-2003《Determination of the effects of exposure to damp heat,water spray and salt mist for plastics》
GB/T 20853-2007/ISO 16701:2003 《Corrosion of metals and alloys - corrosion in artificial atmosphere - accelerated corrosion test involving exposure under controlled conditions of humidity cycling and intermittent spraying of a salt solution》
GB/T 20854-2007/ISO14993:2001《Corrosion of metals and alloys - accelerated testing involving cyclic exposure to salt mist, “dry“ and “wet“ condition》
GB/T 24195-2009/ISO16151:2005 《Corrosion of metals and alloys - Accelerated cyclic tests with exposure to acidified salt spray, “dry” and “wet” conditions》
Main Technical Parameters
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Ordering Information →
Technical Parameters↓
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BGD 886/T
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BGD 887/T
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BGD 888/T
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Working room size
(W×H×D, mm)
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1200×800×1000
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1600×800×1000
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2000×800×1200
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Working Room Capacity (no including V shape cover)
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960 L
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1280 L
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1920 L
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Overall Size(W×H×D, mm)
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2500×1650×1220
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2900×1650×1220
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3300×1720×1420
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Power/Max. Current
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30.8KW/37A
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30.8KW/37A
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32.8KW/40A
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Power Supply
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AC 380V 3 phase 37A
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AC 380V 3 phase 37A
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AC 380V 3 phase 40A
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Temperature Range
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20℃~70℃(Continuously adjustable)
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Temperature Uniformity
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≤ 2℃(When RH ≥ 75%); ≤ 3℃(When RH<75%)
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Temperature Stability
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± 0.5℃
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Temperature Rise and Fall Rate of Working Room / Saturation Barrel
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≥ 1℃/min(Whole process average)
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Humidity Range
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20%~98%
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Humidity Uniformity
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≤ 2%RH~3%RH(When RH ≥ 75%); ± 5% RH(When RH<75%)
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Humidity Stability
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± 2% RH
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Salt Fog Precipitation
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1ml~2ml/ 80cm2.h(Adjustable)
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Spray Method
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Continuous or Cyclical
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Required Work Environment
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Tem: 5~30℃; RH: 45%~85%RH; Barometric Pressure: 86kPa~106kPa
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Required Air Supply
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Air consumption: 4m3/h, Pressured air without water and oil which has been dried and filtered, pressure is (0.4~0.8)Mpa.
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Required Water Supply
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It meets the secondary water standard specified in GB/T 6682-2008 water specification and test method standard for analytical laboratory. The water supply pressure is within the range of 0.1MPa ~ 0.4MPa. The instrument reserves 1/4 "internal teeth for water supply interface.
Note:Distilled water or deionized water is required for preparing spray solution,
water consumption is near 60L/24hour under continuous spraying
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Exhaust and drainage
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The exhaust pipe of the instrument shall be extended to the outdoor designated position, and shall be led out of the room through opening in the wall near the instrument installation. The exhaust pipe shall not be kept unblocked without water. The exhaust pipe diameter shall be Ф 50mm; The instrument drainage pipeline shall be extended to the outside, and the drainage pipeline shall be unblocked. The drainage outlet shall be lower than the instrument drainage outlet, and the drainage pipe diameter shall be Ф 1/2".
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Note:Temperature uniformity and stability datas are tested under 25℃ environment temperature, RH ≤ 85% and no any samples.
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