Xenon Arc Test Chambers

In the world of material testing, the Xenon Arc Test Chamber stands out as a pivotal tool for simulating the effects of sunlight, heat, and moisture on various materials. This article delves into the nuances of Xenon Arc Test Chambers, highlighting their importance, applications, and the top manufacturers and suppliers in India. Read more: https://effectivelabindia.com/xenon-arc-test-chamber/

Contact Information: Effective Lab India Website: effectivelabindia.com/ Email: [email protected] Phone: +91-95555-155-25

Xenon Test Chamber TZ-XNT102

Testoz Xenon Test Chamber is designed to meet diverse testing requirements with its broad range of wavelengths. It features a 6.5-kilowatt water-cooled long-arc xenon lamp, ensuring precise and reliable simulation of natural sunlight for accurate material durability and performance assessments.

Abstract The Xenon Arc Lamp Accelerated Aging Test Chamber, such as the LISUN XD-80LS Xenon Lamp Aging Test Chamber, is a state-of-the-art tool designed to simulate the full sunlight spectrum, including ultraviolet (UV), visible, and infrared (IR) radiation. This technology is critical for testing material durability under different environmental conditions, such as exposure to sunlight, heat, and moisture. This paper explores the working principle, applications, and performance benefits of the Xenon Arc Lamp Accelerated Aging Test Chamber, with a detailed focus on the LISUN XD-80LS. Relevant data tables and operational insights are included to highlight the chamber’s capabilities. 1. Introduction Modern industries require materials and products to endure various environmental conditions over their lifespans. Accelerated aging tests using xenon arc lamps provide a reliable way to predict product durability. The Xenon Arc Lamp Accelerated Aging Test Chamber recreates sunlight’s destructive components to simulate natural aging in weeks instead of years. The LISUN XD-80LS Xenon Lamp Aging Test Chamber is specifically engineered to replicate solar radiation across UV, visible, and IR wavelengths. This makes it ideal for testing the effects of light and climate on polymers, coatings, paints, textiles, and other materials. 2. Working Principle of Xenon Arc Lamp Accelerated Aging Test Chamber The chamber utilizes a xenon arc lamp to simulate sunlight. This lamp produces a continuous spectrum that closely matches natural sunlight, including: • Ultraviolet (UV) radiation (280–400 nm): Causes degradation in materials like plastics, paints, and polymers. • Visible light (400–780 nm): Responsible for fading of colors. • Infrared (IR) radiation (780–1400 nm): Induces thermal stress. Key features of the LISUN XD-80LS include water-cooled xenon lamps, precise irradiance control, and options for multiple test standards (e.g., ISO 4892-2, ASTM G155). 2.1 Chamber Design The chamber comprises the following components: • Xenon Arc Lamp: Emits the full spectrum of sunlight. • Filters: Adjust spectral distribution to match specific environmental conditions. • Temperature and Humidity Control: Simulates real-world scenarios such as rain or dew. • Control System: Enables programming and monitoring of test cycles. 2.2 Operating Parameters The operating parameters of the LISUN XD-80LS are detailed in Table 1. Parameter Specification Lamp Type Air-cooled xenon lamp Wavelength Range 290–800 nm Irradiance Uniformity ≤ ±10% Temperature Range RT +10°C to 70°C Humidity Range 30%–98% RH Standards Compliance ISO 4892-2, ASTM G155, GB/T 16422.2 3. Applications of Xenon Arc Lamp Accelerated Aging Test Chamber The Xenon Arc Lamp Accelerated Aging Test Chamber has extensive applications across industries: 3.1 Automotive Industry • Paints and Coatings: Evaluating resistance to UV and temperature-induced cracking. • Plastics: Ensuring dashboard materials resist fading and deformation. 3.2 Textiles • Fabrics: Assessing UV resistance and colorfastness. • Outdoor Equipment: Verifying durability under continuous sunlight. 3.3 Construction Materials • Roofing: Testing material resistance to sunlight and heat. • Windows: Evaluating UV stability of polymeric films and coatings. 3.4 Electronics • Solar Panels: Checking photovoltaic material endurance against prolonged UV exposure. Xenon Lamp Aging Test Chamber_XD 80LS  4. Advantages of LISUN XD-80LS Xenon Lamp Aging Test Chamber The LISUN XD-80LS Xenon Lamp Aging Test Chamber offers distinct advantages for accurate material testing: • Precision Testing: Advanced irradiance controls ensure repeatable test conditions. • Compliance with Standards: Adheres to international protocols for reliability. • Environment Simulation: Mimics natural and extreme climatic conditions. • Cost Efficiency: Reduces long-term product failures through reliable pre-testing. 4.1 Data Comparison Table 2 demonstrates the results of a typical test using the LISUN XD-80LS, showing material performance before and after accelerated aging. Material Test Duration UV Resistance (ΔE Value) Tensile Strength (% Retention) Coating A 500 hours 2.5 85% Plastic B 1000 hours 5 75% Textile C 800 hours 3 90% 5. Testing Procedure The following steps outline a typical test procedure using the LISUN XD-80LS: • Preparation: Clean and prepare material samples. • Programming: Set test parameters (e.g., irradiance, temperature, humidity). • Testing: Run tests for a defined duration, mimicking environmental conditions. • Evaluation: Analyze material changes such as discoloration, loss of strength, or surface damage. 6. Case Study: LISUN XD-80LS in Action 6.1 Objective To assess the UV resistance of automotive paint coatings. 6.2 Methodology • Sample Size: 10 paint-coated panels. • Test Duration: 1000 hours. • Parameters: UV irradiance at 0.55 W/m², 65% RH, and 50°C temperature. 6.3 Results Table 3 shows the outcomes of the study. Sample ID Initial Gloss (%) Final Gloss (%) ΔE Value Panel 1 95 80 3.2 Panel 2 90 78 2.8 7. Conclusion The Xenon Arc Lamp Accelerated Aging Test Chamber, exemplified by the LISUN XD-80LS, is indispensable for predicting material durability in real-world conditions. Its ability to simulate the full solar spectrum ensures comprehensive and reliable test results, making it an essential tool for quality assurance in various industries. References LISUN Group. (2024). XD-80LS Xenon Lamp Aging Test Chamber. ISO 4892-2:2013. Methods of Exposure to Laboratory Light Sources. ASTM G155:2021. Standard Practice for Operating Xenon Arc Light Apparatus. Read the full article

Abstract The Xenon Arc Lamp Accelerated Aging Test Chamber, such as the LISUN XD-80LS Xenon Lamp Aging Test Chamber, is a state-of-the-art tool designed to simulate the full sunlight spectrum, including ultraviolet (UV), visible, and infrared (IR) radiation. This technology is critical for testing material durability under different environmental conditions, such as exposure to sunlight, heat, and moisture. This paper explores the working principle, applications, and performance benefits of the Xenon Arc Lamp Accelerated Aging Test Chamber, with a detailed focus on the LISUN XD-80LS. Relevant data tables and operational insights are included to highlight the chamber’s capabilities. 1. Introduction Modern industries require materials and products to endure various environmental conditions over their lifespans. Accelerated aging tests using xenon arc lamps provide a reliable way to predict product durability. The Xenon Arc Lamp Accelerated Aging Test Chamber recreates sunlight’s destructive components to simulate natural aging in weeks instead of years. The LISUN XD-80LS Xenon Lamp Aging Test Chamber is specifically engineered to replicate solar radiation across UV, visible, and IR wavelengths. This makes it ideal for testing the effects of light and climate on polymers, coatings, paints, textiles, and other materials. 2. Working Principle of Xenon Arc Lamp Accelerated Aging Test Chamber The chamber utilizes a xenon arc lamp to simulate sunlight. This lamp produces a continuous spectrum that closely matches natural sunlight, including: • Ultraviolet (UV) radiation (280–400 nm): Causes degradation in materials like plastics, paints, and polymers. • Visible light (400–780 nm): Responsible for fading of colors. • Infrared (IR) radiation (780–1400 nm): Induces thermal stress. Key features of the LISUN XD-80LS include water-cooled xenon lamps, precise irradiance control, and options for multiple test standards (e.g., ISO 4892-2, ASTM G155). 2.1 Chamber Design The chamber comprises the following components: • Xenon Arc Lamp: Emits the full spectrum of sunlight. • Filters: Adjust spectral distribution to match specific environmental conditions. • Temperature and Humidity Control: Simulates real-world scenarios such as rain or dew. • Control System: Enables programming and monitoring of test cycles. 2.2 Operating Parameters The operating parameters of the LISUN XD-80LS are detailed in Table 1. Parameter Specification Lamp Type Air-cooled xenon lamp Wavelength Range 290–800 nm Irradiance Uniformity ≤ ±10% Temperature Range RT +10°C to 70°C Humidity Range 30%–98% RH Standards Compliance ISO 4892-2, ASTM G155, GB/T 16422.2 3. Applications of Xenon Arc Lamp Accelerated Aging Test Chamber The Xenon Arc Lamp Accelerated Aging Test Chamber has extensive applications across industries: 3.1 Automotive Industry • Paints and Coatings: Evaluating resistance to UV and temperature-induced cracking. • Plastics: Ensuring dashboard materials resist fading and deformation. 3.2 Textiles • Fabrics: Assessing UV resistance and colorfastness. • Outdoor Equipment: Verifying durability under continuous sunlight. 3.3 Construction Materials • Roofing: Testing material resistance to sunlight and heat. • Windows: Evaluating UV stability of polymeric films and coatings. 3.4 Electronics • Solar Panels: Checking photovoltaic material endurance against prolonged UV exposure. Xenon Lamp Aging Test Chamber_XD 80LS  4. Advantages of LISUN XD-80LS Xenon Lamp Aging Test Chamber The LISUN XD-80LS Xenon Lamp Aging Test Chamber offers distinct advantages for accurate material testing: • Precision Testing: Advanced irradiance controls ensure repeatable test conditions. • Compliance with Standards: Adheres to international protocols for reliability. • Environment Simulation: Mimics natural and extreme climatic conditions. • Cost Efficiency: Reduces long-term product failures through reliable pre-testing. 4.1 Data Comparison Table 2 demonstrates the results of a typical test using the LISUN XD-80LS, showing material performance before and after accelerated aging. Material Test Duration UV Resistance (ΔE Value) Tensile Strength (% Retention) Coating A 500 hours 2.5 85% Plastic B 1000 hours 5 75% Textile C 800 hours 3 90% 5. Testing Procedure The following steps outline a typical test procedure using the LISUN XD-80LS: • Preparation: Clean and prepare material samples. • Programming: Set test parameters (e.g., irradiance, temperature, humidity). • Testing: Run tests for a defined duration, mimicking environmental conditions. • Evaluation: Analyze material changes such as discoloration, loss of strength, or surface damage. 6. Case Study: LISUN XD-80LS in Action 6.1 Objective To assess the UV resistance of automotive paint coatings. 6.2 Methodology • Sample Size: 10 paint-coated panels. • Test Duration: 1000 hours. • Parameters: UV irradiance at 0.55 W/m², 65% RH, and 50°C temperature. 6.3 Results Table 3 shows the outcomes of the study. Sample ID Initial Gloss (%) Final Gloss (%) ΔE Value Panel 1 95 80 3.2 Panel 2 90 78 2.8 7. Conclusion The Xenon Arc Lamp Accelerated Aging Test Chamber, exemplified by the LISUN XD-80LS, is indispensable for predicting material durability in real-world conditions. Its ability to simulate the full solar spectrum ensures comprehensive and reliable test results, making it an essential tool for quality assurance in various industries. References LISUN Group. (2024). XD-80LS Xenon Lamp Aging Test Chamber. ISO 4892-2:2013. Methods of Exposure to Laboratory Light Sources. ASTM G155:2021. Standard Practice for Operating Xenon Arc Light Apparatus. Read the full article

Test the actual durability of your products with Testron's Xenon Arc Accelerated Weathering Test Chamber

Is your product up for the harshest of conditions?  Simulate outdoor environmental stresses in Testron's Xenon Arc Accelerated Weathering Test Chamber, including UV, heat, and moisture. Ensure that the integrity of your products withstand the test of time!

Why Choose Our Weathering Test Chamber?

High Power Xenon Arc System: 4500W for optimal exposure.

Precise Control: Adjustable irradiance, temperature, and humidity.

Capacity: Test up to 42 samples at once.

Advanced Testing Methods: Compliant with global standards like ISO 4892 and ASTM G154/ G155.

Industries That Benefit:

Automotive: Test paints and coatings for long-term durability.

Construction: Evaluate outdoor materials like roofing and siding.

Consumer Goods: Assess plastic, rubber, and other materials for aging.

Electronics: Ensure long-lasting performance of components like TV casings.

Ready for Testing Excellence?

Contact Testron today and give your products a life that lasts through the ages!

For more information:

Email: [email protected]

Product: https://testrongroup.com/product/xenon-arc-accelerated-weathering-test-chamber/

Website: https://testrongroup.com/

Copper Testing Machine| Tech Trivial

Introducing our cutting-edge Copper Testing Machine, meticulously engineered by Tech Trivial. Experience precision and efficiency in analyzing copper materials like never before.

• A Programmed Timer automatically controls the UV & Condensation cycles of the UVCON &

programming.

• Temperature is measured & controlled by a solid state circuit. A PT-100 Sensor is

mounted in a black aluminum panel on the specimen rack.

• The temperature is set by the Operator & monitored by Digital panel meter on the

Control Panel. Note:- This version is with UV lamps but Xenon Arc (ISO 4892-2) is also available on request.

The instrument Generally comprises:-

• A Double Walled Chamber for sample burning with front glass door

• A Burner settable 0- 90 o angle and precise gas control system including gas regulator

• Microprocessor control Burner Moving system

• Sample Holding System (adjustable both vertically and horizontally)

• Digital Timer for flame application (can be preset for 1 to 99 sec)

• Digital timer for flame observation after flame is removed.

For more information contact us.

Waterproof Coatings Market Trends: Riding the Tide of Innovation

Waterproof Coatings: A Barrier Against Moisture To Prevent Water And Moisture

The Evolution of Waterproof Coatings

Waterproof coats serve as a protective barrier that prevents water and moisture from penetrating surfaces like fabrics, concrete, wood, and more. The development of modern waterproofing techniques and materials allows us to keep everything from phones to buildings dry even in wet conditions. Let's take a deeper look at how waterproof coats work and the technologies behind them. Repelling Water Through Chemistry At the molecular level, waterproof coats use specific chemical formulations to repel water. Many coatings contain polymers that are hydrophobic, meaning they do not attract water molecules. Silicones are a commonly used hydrophobic polymer in waterproofing products. The large silicone molecules form a tight, flexible barrier that prevents water from passing through but still allows surfaces to breathe. Other chemicals like fluoropolymers also exhibit exceptional water-repellent properties due to the structure of their molecules. These water-repellent chemicals are integral components of modern waterproof coats. Advanced Barrier Technologies Beyond chemical composition, modern waterproofing technologies create physical barriers against moisture as well. Many coatings deposit ultra-thin, crack-free films only a few nanometers thick using plasma or other deposition processes. These barrier layers are completely non-porous so no water can penetrate no matter how small the pores might be. Additional barrier methods employ multiple coating layers that self-heal any small defects. Self-healing polymers can replenish damaged areas of a waterproof barrier on their own over time. Networked barrier coatings also work to repel moisture even if microscopic cracks or holes occur. Applications in Daily Life Waterproof coats enable all kinds of applications we rely on every day. They protect our phones, watches, sports gear and more from water damage. Specialist coats and boots with waterproof membranes keep outdoor enthusiasts dry in rain or snow. Waterproof fabrics allow us to enjoy activities like kayaking without worrying about getting soaked. Waterproof construction materials like sealants form barriers around buildings, ensuring interiors stay protected. Even paper and cardboard products like packaging can be coated to withstand moisture. Thanks to advanced waterproofing technologies, we can now go about our daily lives with confidence in nearly any conditions. Endurance Testing for Real-World Performance Guaranteeing a coating's waterproof performance requires stringent testing methods. Standard tests involve controlled exposure to water sprinkling or submersion over extended periods. Testing evaluates factors like barrier integrity, adhesion strength after water contact and flexibility at low temperatures where coatings may crack. Some testing regimes involve over 5000 hours of water exposure to simulate 15+ years of real-world conditions. Advanced testing uses specialized equipment like pressure cookers and weathering chambers that can accelerate corrosion and wear equivalents. Xenon arc light exposure reproduces years of natural weathering in only weeks. Combined environmental testing helps develop coatings proven to withstand demanding outdoor applications for many years. Eco-Friendly Formulations for Sustainability As waterproofing technologies evolve, the demand grows for greener, more sustainable coating options. Researchers strive to replace harmful volatile organic compounds (VOCs) with eco-friendly alternatives. Some new bio-based hydrophobic polymers come from plant oils rather than petrochemical sources. Silicone replacements using renewable plant-based components are also under development. Water-based polymer emulsions eliminate solvents for reduced toxicity. Self-curing coatings use ultraviolet light or moisture itself to cure rather than heat sources. Nano-additives allow thinner, more efficient coatings to achieve the necessary performance. Continued innovation will drive the industry towards providing high performance without compromising environmental sustainability.

Effective Lab India is a premier manufacturer and exporter of a wide array of laboratory testing instruments. Our product range includes Cass Test Chambers, Salt Spray Chamber, Laboratory Melt Flow Indexers, Bursting Strength Testers, Xenon Arc Test Chambers, Ozone Aging Test Chambers, and UV Light Accelerated Weathering Testers. We are dedicated to delivering high-quality services to our valued clients. For further information, please don't hesitate to contact us at +91 9555515525 or email us at [email protected]. Effective Lab India is a leading laboratory solution provider dedicated to offering high-quality equipment, consumables, and services to various industries across India. With a focus on efficiency, reliability, and innovation, Effective Lab India caters to the diverse needs of research laboratories, educational institutions, healthcare facilities, pharmaceutical companies, and more.

Xenon ARC Test Chamber Advantages and Uses

Effective Lab India provides a variety of environmental testing equipment to simulate real-world weather conditions. Xenon is among the top environmental test instruments that Effective Lab India has created. The weather resistance is examined with the use of the test apparatus. Our Xenon Arc Test Chambers subject materials to extreme Xenon Arc light, moisture, and temperature fluctuations in order to replicate the most extreme environmental circumstances. These exacting tests are carried out with great care, yielding priceless information for quality control and product development. Our Xenon Arc Test Chambers are essential to producing goods that surpass customer and industry expectations. At Effective Lab, we are dedicated to quality in every facet of our production process.

Uses of Xenon arc test chamber

The xenon test chamber is used for the study of weathering and accelerated aging testing through the emulation of environmental conditions. It is known as the Xenon test chamber because a Xenon arc lamp is used in this chamber as a light source. It is used for the evaluation of the weather resistance of products. The Xenon test chamber controls weathering by using temperature, moisture, and a varying light spectrum. 

Read More:-

Illuminating Excellence: The Xenon Test Chamber Unveiled

The Effective Lab Xenon Test Chamber serves as a vital tool in the pursuit of durable and high-performing materials. Its ability to simulate real-world conditions accelerates the testing process, enabling industries to innovate with confidence and deliver products that stand the test of time. Industries ranging from automotive and aerospace to textiles and plastics rely on the Xenon Arc Test Chamber to evaluate the durability and performance of their products. 

The chamber achieves this by utilizing xenon arc lamps emitting intense UV radiation like natural sunlight. These lamps generate a spectrum resembling sunlight, making them ideal for simulating outdoor conditions.  For instance, in the automotive sector, materials such as paints, plastics, and textiles undergo rigorous testing to ensure they can withstand years of exposure to sunlight without fading or degrading. Similarly, aerospace components must endure harsh environmental conditions, making the xenon arc weathering invaluable for assessing their resilience.

Xenon Test Chamber TZ-XNT103

Testoz Xenon Test Chamber is designed to hold 63 to 65 samples measuring 15 centimeters by 7 centimeters, allowing multiple specimens to be tested simultaneously. It features a 6.5-kilowatt water-cooled long arc xenon lamp, ensuring precise light exposure for accurate and reliable weathering tests.

Our new spectrophotometer has arrived today! 🔬🧪🤩 This will be used in combination with our colour assessment cabinets and our xenon arc test chamber to offer customers the highest levels of accuracy and repeatability in precise colour measurement and quality control across our product range 🚗🪵🧼 Contact us to find out how we can support your brand. #theperfectsolution #detailing #detailersofinstagram #carcleaning #carcleaningproducts #carcare #carpolish #carcareproducts #detailingaddicts #detailingproducts #detailingboost #detailinglife #achem #bespokemanufacturing #detailingaddict #autodetailing #detailingdoneright #carwax #snowfoam #carfoam #carsealant #fabricsealant #ceramicsealant #sio2 #carnaubawax #wetwax #carwax (at A-Chem) https://www.instagram.com/p/ChDPQraNGzc/?igshid=NGJjMDIxMWI=

Global Xenon Test Chambers Market 2019 Analysis, Applications, Size, Share, Overview To 2024

Acquire Market Research has announced a new report titled “Global Xenon Test Chambers Market, Market Research, Market Research Reports, Industry Reports, Regions Reports, Industry Analysis, Business Research” to their offerings

The worldwide market for Xenon Test Chambers is expected to grow at a CAGR of roughly 3.9% over the next five years, will reach 140 million US$ in 2024, from 110 million US$ in 2019, according to a new study.

Xenon Test chamber used for industry and research to simulate sunlight, uses a specialized xenon arc lamp type of gas discharge lamp that produces light by passing electricity through ionized xenon gas at high pressure. It produces a bright white light that closely mimics natural sunlight.

Request Sample Report@ https://www.acquiremarketresearch.com/sample-request/1565

Scope of the Report:

Xenon Test chamber used for industry and research to simulate sunlight, allowing engineers to evaluate the effects that light changes have on products placed within the chamber. A xenon test chamber evaluates product quality and identifies flaws and weaknesses. Xenon test chambers are utilized in all industries, from automotive to engineering and construction to medical, pharmaceutical, food processing and packaging. Manufacturers test such items as cars, cigarettes, makeup, medicine and medical instruments. There is a growing demand by customers to have extended warranties and maintenance on products. Manufacturers would be at high risk in offering these long-term warranties and service contracts without test data to back up product performance guarantees.

In the last several years, global market of xenon test chambers developed steady, with an average growth rate of 4.77%. In 2017, global revenue of Corrosion Test Chamber is nearly 109.36 M USD; the actual volume is about 3400 Unit.

This report focuses on the Xenon Test Chambers in global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

Market Segment by Manufacturers, this report covers

ATLAS (AMETEK), Q-LAB, Suga Test Instruments, EYE Applied Optix, ASLi Testing Equipment, Presto Group, Linpin, Sanwood Environmental Chambers, Torontech Inc, Biuged Laboratory Instruments, Wewon Environmental Chambers, Qualitest Inc

Market Segment by Regions, regional analysis covers

North America (United States, Canada and Mexico)

Europe (Germany, France, UK, Russia and Italy)

Asia-Pacific (China, Japan, Korea, India and Southeast Asia)

South America (Brazil, Argentina, Colombia etc.)

Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

Market Segment by Type, covers

Air Cooling

Water Cooling

Market Segment by Applications, can be divided into

Paints & Coatings

Rubber & Plastics

Electrical and Electronic

Other

More Info and TOC @ https://www.acquiremarketresearch.com/industry-reports/global-xenon-test-chambers-market-2019-by-manufacturers/1565/

The content of the study subjects, includes a total of 15 chapters:

Chapter 1, to describe Xenon Test Chambers product scope, market overview, market opportunities, market driving force and market risks.

Chapter 2, to profile the top manufacturers of Xenon Test Chambers, with price, sales, revenue and global market share of Xenon Test Chambers in 2017 and 2018.

Chapter 3, the Xenon Test Chambers competitive situation, sales, revenue and global market share of top manufacturers are analyzed emphatically by landscape contrast.

Chapter 4, the Xenon Test Chambers breakdown data are shown at the regional level, to show the sales, revenue and growth by regions, from 2014 to 2019.

Chapter 5, 6, 7, 8 and 9, to break the sales data at the country level, with sales, revenue and market share for key countries in the world, from 2014 to 2019.

Chapter 10 and 11, to segment the sales by type and application, with sales market share and growth rate by type, application, from 2014 to 2019.

Chapter 12, Xenon Test Chambers market forecast, by regions, type and application, with sales and revenue, from 2019 to 2024.

Chapter 13, 14 and 15, to describe Xenon Test Chambers sales channel, distributors, customers, research findings and conclusion, appendix and data source.

Request for Discount @ https://www.acquiremarketresearch.com/discount-request/1565

About Acquire Market Research:

Acquire Market Research is a shrine of world-class research reports from around the world and we offer you only the best in the Industry when it comes to research. At Acquire, every data need will be catered to and met with a powerful world of choices. "We understand the integral role data plays in the growth of Business empires."

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Copper Testing Machine| Tech Trivial

Introducing our latest innovation: the Copper Testing Machine by Tech Trivial. Accurately analyze copper components with precision and ease. Boost your efficiency today!

• A Programmed Timer automatically controls the UV & Condensation cycles of the UVCON &

programming.

• Temperature is measured & controlled by a solid state circuit. A PT-100 Sensor is

mounted in a black aluminum panel on the specimen rack.

• The temperature is set by the Operator & monitored by Digital panel meter on the

Control Panel. Note:- This version is with UV lamps but Xenon Arc (ISO 4892-2) is also

available on request.

The instrument Generally comprises:-

• A Double Walled Chamber for sample burning with front glass door

• A Burner settable 0- 90 o angle and precise gas control system including gas regulator

• Microprocessor control Burner Moving system

• Sample Holding System (adjustable both vertically and horizontally)

• Digital Timer for flame application (can be preset for 1 to 99 sec)

• Digital timer for flame observation after flame is removed.

For more information contact us