quality Flammability Testing Equipment & Vertical Flammability Tester factory

The Vertical Flammability Tester is a specialized type of flammability testing equipment designed to evaluate the flame resistance of materials (especially plastics, textiles, and electrical insulation materials) under vertical placement conditions. Its core design and functional features are tailored to simulate real-world scenarios where materials may hang vertically (e.g., curtains, wire insulation, vertical plastic components) and be exposed to ignition sources. Below are its key characteristics, categorized by structural design, testing capabilities, operational control, and compliance:   1. Structural Design: Safe, Stable, and Simulation-Oriented   The vertical orientation of the tester is its most distinctive feature, and its structure is optimized to ensure accurate testing results while minimizing safety risks.   Vertical Test Chamber with Enclosure   A closed or semi-closed vertical chamber (usually made of heat-resistant, transparent materials like tempered glass) isolates the test area from external air currents. This prevents air flow from interfering with flame propagation, ensuring consistent test conditions. The chamber often includes a flame arrester and smoke exhaust system: The flame arrester stops accidental flame spread outside the chamber, while the exhaust system removes toxic smoke (e.g., from burning plastics) to protect operators and avoid equipment contamination. Precision Ignition Source Mounting   The ignition source (typically a Bunsen burner or propane torch) is fixed at a specific angle (e.g., 90° to the vertical sample, as required by standards like UL 94) and distance (usually 10-15mm from the sample’s lower end). This ensures the flame is applied uniformly to the sample’s base in every test. The burner’s flame height is adjustable and measurable (e.g., 20mm, 50mm, or 100mm) to meet different standard requirements—for example, UL 94 V-0 testing requires a 10mm flame, while some textile tests use a 50mm flame. Sample Fixing Mechanism   A stable, adjustable clamp secures the sample vertically (without stretching or deforming it). For flexible materials (e.g., textiles), the clamp may have a grid or guide to keep the sample straight; for rigid materials (e.g., plastic sheets), it uses non-combustible fixtures (e.g., metal clips) to avoid influencing the test result.   2. Testing Capabilities: Accurate Measurement of Key Flame Resistance Indicators   The tester is engineered to quantify critical parameters that reflect a material’s flammability, ensuring results are objective and comparable.   Automatic Timing of Flame-Related Durations   It integrates high-precision timers to record two core metrics: Afterflame Time (t1): The time the sample continues to burn after the ignition source is removed. Afterglow Time (t2): The time the sample continues to glow (without open flame) after the afterflame stops. These timers have a precision of up to 0.1 seconds, which is essential for meeting strict standards (e.g., UL 94 V-0 requires t1 ≤ 10 seconds and t2 ≤ 30 seconds for each ignition cycle). Flame Spread and Dripping Monitoring   For materials that may melt and drip (e.g., thermoplastics like PP or PE), the tester includes a drip collection tray (lined with absorbent material like cotton) below the sample. Operators or sensors can check if dripping molten material ignites the cotton—this is a key criterion for UL 94 classification (e.g., V-0 prohibits ignition of the cotton, while V-2 allows it). Some advanced models use high-speed cameras or infrared sensors to track flame spread speed along the vertical sample, providing quantitative data for materials like textiles or foam. Controllable Fuel Supply   The tester uses a stable fuel source (usually propane or butane) with a pressure regulator and flowmeter. This ensures the flame’s temperature (typically 950-1000°C, as specified by standards) and shape remain consistent throughout the test—fluctuations in fuel pressure would directly affect test accuracy.   3. Operational Control: User-Friendly and Standardized   To reduce human error and align with global standards, the tester features intuitive controls and standardized workflows.   Semi-Automatic or Fully Automatic Operation   Basic models support semi-automatic control: Operators manually start the ignition source, and the system automatically times afterflame/afterglow and cuts off the fuel after the specified ignition duration (e.g., 10 seconds for UL 94). Advanced models offer full automation: The system can load samples (via a robotic arm), adjust the flame height, start/stop ignition, record data, and generate test reports—this is ideal for high-volume testing in factories or third-party labs. Data Recording and Reporting   Built-in sensors (e.g., thermocouples for temperature monitoring, light sensors for flame detection) collect test data in real time. The system stores data (timing, flame status, dripping results) and can export reports in formats like Excel or PDF, with clear labels for compliance (e.g., “Meets UL 94 V-0 Requirements”). Some testers integrate with lab management systems (LIMS) to streamline data sharing and audit trails—critical for regulatory inspections. Safety Interlocks   To protect operators, the tester includes multiple safety features: A door interlock: If the test chamber door is opened during operation, the ignition source is immediately cut off. Overpressure/overtemperature alarms: If fuel pressure is too high or the chamber temperature exceeds a safe limit, the system shuts down the fuel supply. Emergency stop button: A prominent button to halt all operations in case of accidents (e.g., unexpected flame spread).   4. Compliance: Aligned with Global Fire Safety Standards   A core feature of vertical flammability testers is their compatibility with major international and regional standards—without this, test results would not be recognized for market access. Common standards they support include:   Plastics: UL 94 (U.S.), IEC 60695-11-10 (international), GB/T 2408 (China) – focusing on afterflame/afterglow time and dripping. Electrical Insulation: IEC 60332-1-2 (wire insulation), ASTM D3801 (electrical plastics) – evaluating resistance to ignition from electrical sparks. Textiles: ASTM D6413 (vertical flame test for textiles), GB/T 5455 (China) – measuring flame spread speed and afterflame time for fabrics. Aerospace Materials: FAR 25.853 (FAA), EN 2824 (EU) – strict requirements for low flame spread and minimal smoke.   Summary   The Vertical Flammability Tester’s key features—vertical structural design, precise flame control, accurate parameter measurement, user-friendly operation, and global standard compliance—make it indispensable for evaluating the fire safety of materials in vertical use scenarios. It ensures that products (from plastic components to children’s clothing) meet regulatory requirements and reduce fire risks in real-world applications.

Flammability Testing Equipment is a core tool for evaluating material fire safety, and its applicable scenarios cover multiple industries, regulatory links, and product life cycles. Its core value lies in verifying whether materials/products meet fire safety standards, preventing fire risks, and supporting compliance with laws and market access requirements. Below is a detailed breakdown of its key application scenarios, categorized by industry and functional purpose:   1. Electronics & Electrical Industry: Ensuring Component and Product Fire Safety   Electronics (e.g., smartphones, laptops, home appliances) and electrical equipment (e.g., wires, sockets, circuit boards) often operate at high temperatures or in confined spaces—making fire prevention critical. Flammability testing here focuses on materials that may ignite due to short circuits, overheating, or sparking.   Key application scenarios:   Component-level testing: Testing insulation materials (e.g., PVC, silicone rubber for wire sheaths) to ensure they do not catch fire or spread flames when exposed to high temperatures (complies with standards like UL 94 for plastics or IEC 60332-1 for wire flame resistance). Evaluating circuit board substrates (e.g., FR-4 epoxy resin) to prevent combustion from overheating chips (tests include flame spread rate and smoke generation, per IPC-4101). Product-level testing: Verifying the fire safety of complete devices (e.g., laptops, power adapters) to ensure they self-extinguish if internal components ignite (complies with IEC 60950-1 for information technology equipment or GB 4943.1 in China). Testing battery materials (e.g., lithium-ion battery separators, casing plastics) to assess fire resistance during thermal runaway (per UL 94 V-0 or IEC 62133).   2. Construction & Building Materials Industry: Safeguarding Architectural Fire Prevention   Building materials (e.g., walls, floors, insulation) are directly related to the spread of fires in buildings—poorly performing materials can accelerate fire propagation and release toxic smoke, endangering lives. Flammability testing here focuses on flame spread speed, smoke density, and toxic gas emission.   Key application scenarios:   Structural and decorative materials: Testing wall panels (e.g., gypsum boards, aluminum composite panels), floor materials (e.g., vinyl flooring, wooden boards), and ceiling materials to determine their "flame spread index" and "smoke developed index" (complies with ASTM E84 (Steiner Tunnel Test) or GB/T 8624 (China’s building material combustion classification)). Evaluating insulation materials (e.g., polyurethane foam, rock wool) to ensure they are non-combustible or flame-retardant (tests include GB/T 20284 for smoke toxicity and ISO 1182 for non-combustibility). Fire protection materials: Verifying the effectiveness of fireproof coatings (e.g., intumescent coatings for steel structures) to ensure they delay material combustion when exposed to high temperatures (per GB/T 14907 or ASTM E119).   3. Textile & Apparel Industry: Protecting End-Users (Especially Vulnerable Groups)   Textiles (e.g., clothing, curtains, bedding) are highly flammable, and fires involving textiles often cause severe burns—especially for children, the elderly, or people with limited mobility. Testing here focuses on ignition sensitivity, flame spread rate, and self-extinguishing ability.   Key application scenarios:   Clothing (adult and children’s): Testing children’s sleepwear, cotton T-shirts, and synthetic jackets to ensure they do not ignite easily or spread flames rapidly (complies with 16 CFR Part 1610 (U.S. standard for children’s clothing) or BS EN 14878 (EU standard for flame-retardant clothing)). Evaluating flame-retardant workwear (e.g., for firefighters, oilfield workers) to confirm they resist ignition and reduce heat transfer (per NFPA 2112 for industrial workwear or EN 469 for firefighting uniforms). Home textiles: Testing curtains, sofas, and bedding to meet fire safety requirements for residential use (e.g., ASTM D1230 for fabric flame spread or GB 17927 for upholstered furniture in China).   4. Aerospace & Transportation Industry: Meeting Strict Fire Safety Regulations   Aerospace (planes, spacecraft) and transportation (automobiles, trains, ships) environments are closed and high-risk—fires here can lead to catastrophic accidents. Regulatory bodies (e.g., FAA, EASA, ISO) impose extremely strict flammability standards for materials used in these sectors.   Key application scenarios:   Aerospace: Testing cabin materials (e.g., seat cushions, carpet, wall panels) to ensure they have low flame spread, minimal smoke, and low toxic gas emission (complies with FAA FAR 25.853 or EASA CS-25). For example, seat cushions must self-extinguish within 12 seconds of ignition. Evaluating aircraft wiring insulation to resist combustion and prevent short circuits (per SAE AS 81641). Automotive & Rail: Testing interior materials (e.g., dashboard plastics, seat fabrics, foam) to meet national/international standards (e.g., FMVSS 302 for U.S. automobile interior flammability or BS 6853 for UK rail materials). Evaluating battery materials for electric vehicles (EVs) to assess fire risk during thermal runaway (per ISO 12405 or GB 38031).   5. Toy & Children’s Product Industry: Preventing Fire Hazards for Kids   Children’s toys, school supplies, and baby products (e.g., strollers, crib mattresses) are frequently used by minors—flammable materials in these products pose a direct threat to children’s safety. Global regulations (e.g., CPSIA, EN 71) mandate flammability testing for such items.   Key application scenarios:   Toys:

Flammability Testing Equipment is a class of specialized instruments designed to evaluate the combustion behavior of materials under controlled conditions. Its core characteristics are closely tied to its purpose of ensuring accuracy, compliance, safety, and adaptability—all critical for generating reliable data to assess fire hazards and meet industry standards. Below are its key characteristics, organized into five core dimensions:   1. High Precision & Controllability (Core for Reliable Data)   The validity of flammability test results depends entirely on the equipment’s ability to replicate consistent, real-world fire scenarios. This characteristic is reflected in two key aspects:   Precise control of test conditions: The equipment can strictly regulate variables that affect combustion, such as: Ignition source parameters: Accurate control of flame temperature (e.g., ±5°C for a propane flame), flame height (e.g., fixed at 20mm for UL94 tests), and exposure time (e.g., 10 seconds on/10 seconds off cycles). Environmental conditions: Maintenance of constant temperature (e.g., 23±2°C), humidity (e.g., 50±5% RH), and air flow (e.g., 0.3m/s for textile flammability tests) in the test chamber to avoid external interference. Material positioning: Fixed clamping or placement of samples (e.g., 45° angle for horizontal flame tests, vertical suspension for vertical tests) to ensure uniform exposure to the ignition source. High-precision data collection: Equipped with professional sensors and detectors to capture minute changes in combustion behavior, such as: Thermocouples (with accuracy up to ±0.1°C) to track surface and ambient temperature changes. Photometers or laser sensors to measure smoke density with a resolution of 0.01 optical density units (ODU). Gas analyzers (e.g., infrared or electrochemical) to detect toxic gas concentrations as low as 1ppm (parts per million).   2. Strong Standard Compliance (Aligned with Industry Regulations)   Flammability tests are not arbitrary—they must adhere to global, regional, or industry-specific safety standards. The equipment is designed to match the technical requirements of these standards, ensuring test results are recognized and accepted by regulators, customers, and certification bodies. Examples include:   Compliance with material-specific standards: For plastics: Matches the test conditions of UL 94 (e.g., sample size: 125mm×13mm×thickness) and IEC 60695 (e.g., flame temperature of 960±15°C). For building materials: Follows ASTM E84 (Steiner Tunnel Test, requiring a 7.3m-long tunnel and controlled air flow) or GB/T 20284 (smoke toxicity test for building materials). For textiles: Meets 16 CFR Part 1610 (U.S. children’s clothing standard, requiring a 45° ignition test) or ASTM D1230 (flame spread rate test for fabrics). Built-in standard protocols: Many modern equipment have pre-programmed test procedures for common standards (e.g., one-click selection of "UL 94 V-0" or "ASTM E662 smoke density"), reducing human error and ensuring consistency across tests.   3. Safety & Containment (Protection for Operators and Environment)   Since flammability tests involve open flames, toxic smoke, and high temperatures, the equipment is designed with robust safety features to prevent accidents and environmental harm:   Sealed, heat-resistant test chambers: Made of fireproof materials (e.g., 304 stainless steel, refractory ceramics) that can withstand temperatures up to 1000°C or higher, preventing chamber deformation or fire leakage. Smoke and fume management: Equipped with high-efficiency fume extraction systems (e.g., activated carbon filters, HEPA filters) to capture toxic gases (e.g., CO, HCN) and particulate matter, ensuring safe air discharge. Emergency safety mechanisms: Automatic flame cut-off: Shuts off the ignition source immediately if the chamber pressure exceeds a safe limit or if a sample’s flame spreads beyond the test area. Over-temperature protection: Triggers an alarm and stops the test if the chamber temperature exceeds the set threshold (e.g., 500°C for plastic tests). Explosion-proof design: For materials that may release flammable gases (e.g., foams), the chamber is equipped with pressure relief valves to prevent explosions.   4. Broad Adaptability (Suitable for Diverse Materials/Scenarios)   Different materials (plastics, textiles, building materials, electronics) and products (wires, furniture, aircraft interiors) require distinct test methods. The equipment’s adaptability allows it to handle a wide range of test objects:   Adjustable sample sizes and fixtures: For example, vertical/horizontal flame testers can accommodate samples of varying thicknesses (from 0.5mm to 10mm) by replacing clamping fixtures; cone calorimeters can test large panels (e.g., 100mm×100mm) or small components by adjusting the sample holder. Multi-functional testing capabilities: Some advanced equipment integrates multiple test modes. For example, a combined "smoke density + toxic gas analyzer" can simultaneously measure smoke opacity and gas concentrations during a single combustion test, eliminating the need for separate instruments. Compatibility with special materials: Designed to test materials with unique properties, such as: Flexible materials (e.g., rubber, fabrics): Using soft clamping fixtures to avoid sample damage. High-temperature-resistant materials (e.g., ceramics, metal alloys): Using ignition sources with temperatures up to 1300°C (e.g., oxygen-acetylene flames).   5. Intelligent Automation & Data Traceability   Modern flammability testing equipment leverages digital technology to simplify operations and ensure data integrity:   Automated test processes: From ignition source activation, sample exposure, and data collection to test termination, most steps are automated via a computerized control system (e.g., touchscreen interfaces or software like LabVIEW). This reduces manual intervention and human error (e.g., inconsistent timing of flame application). Comprehensive data processing: The equipment can automatically generate test reports with: Raw data (e.g., burn time, temperature curves, smoke density values). Calculated metrics (e.g., heat release rate (HRR) for cone calorimeters, flame spread index for ASTM E84). Visual records (e.g., real-time videos of combustion, screenshots of data curves). Data traceability: Supports data storage, encryption, and audit trails—critical for compliance with quality management systems (e.g., ISO 9001) and regulatory audits. Test data can be linked to sample information (batch number, material type) and operator credentials, ensuring full traceability.   In summary, the characteristics of Flammability Testing Equipment—precision, standard compliance, safety, adaptability, and intelligence—enable it to provide scientific, reliable, and actionable data for fire safety assessment, making it indispensable across industries like electronics, construction, aerospace, and textiles.

Flammability Testing Equipment refers to a category of specialized instruments and systems designed to evaluate the combustion behavior, fire resistance, and flame spread characteristics of materials, products, or components under controlled conditions. Its core purpose is to assess whether a material meets safety standards (e.g., fire resistance, low smoke toxicity) for specific applications—helping prevent fire hazards, comply with regulatory requirements, and guide material selection in industries like construction, electronics, and transportation.   1. Core Functions of Flammability Testing Equipment   The primary goal of this equipment is to simulate real-world fire scenarios (e.g., open flame, smoldering heat) and measure key fire-related metrics. Common functions include:   Determining ignition susceptibility: How easily a material catches fire when exposed to a heat source (e.g., a small flame or hot surface). Measuring flame spread rate: How quickly fire spreads across the material’s surface (critical for materials used in large areas like building walls or aircraft interiors). Evaluating fire duration: How long a material burns after the ignition source is removed (e.g., whether it self-extinguishes or continues to burn). Analyzing smoke and toxic gas emission: Quantifying the amount of smoke, toxic gases (e.g., carbon monoxide, hydrogen cyanide), or corrosive fumes released during combustion (vital for enclosed spaces like submarines or high-rise buildings). Assessing residual properties: Testing the structural integrity of a material after partial combustion (e.g., whether a fire-resistant cable can still transmit electricity after exposure to flame).   2. Key Types of Flammability Testing Equipment (by Application & Standard)   Different industries and regions have distinct fire safety standards (e.g., ASTM in the U.S., ISO globally, GB in China). As a result, flammability testing equipment is often tailored to specific standards and material types. Below are the most common categories:   Equipment Type Target Materials/Products Core Test Purpose Typical Standards Vertical/Horizontal Flame Testers Small components (e.g., plastic parts, wires, textiles) Measure flame spread direction, burn time, and self-extinguishing ability. ASTM D635 (horizontal), ASTM D3801 (vertical), GB/T 2408 UL94 Burn Test Apparatus Plastics (e.g., ABS, PC used in electronics) Classify plastics into fire-resistant grades (e.g., V-0, V-1, HB) based on burn duration and drips. UL 94, IEC 60695-11-10 Cone Calorimeter Large materials (e.g., building panels, furniture foam) Measure heat release rate (HRR)—the most critical metric for fire hazard assessment (higher HRR = more dangerous fire). ASTM E1354, ISO 5660-1 Smoke Density Chamber Materials for enclosed spaces (e.g., cables, aircraft interiors) Quantify smoke opacity (how much smoke blocks visibility) during combustion. ASTM E662, GB/T 8627 Toxic Gas Analyzer All materials (especially those in confined areas) Detect and measure concentrations of toxic gases (CO, HCN, NOx) released during burning. ISO 19700, ASTM E1678 Building Material Fire Tester Construction materials (e.g., drywall, insulation, wooden beams) Evaluate fire resistance of structural materials (e.g., how long a wall resists flame penetration). ASTM E84 (Steiner Tunnel Test), GB/T 20284 Textile Flammability Tester Fabrics (e.g., clothing, upholstery, curtains) Test whether textiles ignite easily and how quickly flames spread (critical for children’s clothing or furniture). ASTM D1230, 16 CFR Part 1610 (U.S. children’s clothing)   3. Key Components of Flammability Testing Equipment   While designs vary by type, most equipment shares core components to ensure accuracy and safety:   Ignition Source: Controlled heat sources like propane flames (for small-scale tests), electric heating elements (for smoldering tests), or radiant heaters (for cone calorimeters). Test Chamber/Enclosure: A sealed or ventilated space to contain combustion, prevent external air interference, and safely collect smoke/gases. Many chambers include heat-resistant materials (e.g., stainless steel) and fume extraction systems. Sensors & Detectors: Tools to measure critical data, such as: Thermocouples (for temperature tracking). Photometers (for smoke density). Gas chromatographs or infrared sensors (for toxic gas analysis). Load cells (for measuring mass loss during combustion). Control & Data Acquisition System: A computerized interface to set test parameters (e.g., flame temperature, exposure time), automate the test process, and record/analyze data (e.g., generating burn time graphs or HRR curves).

From July 14th to 16th, 2025, Dongguan Yuyang, as a leading supplier of instrumentation solutions, made its debut at LabAsia International Laboratory and Analytical Equipment Exhibition in Kuala Lumpur, Malaysia. This exhibition brings together top scientific instrument brands and industry experts from around the world. With innovative product technology and professional service concepts, we have become one of the focal points on site. During the exhibition, we focused on showcasing salt spray boxes and tensile machines, and presented the excellent performance of our products in the experimental field to Southeast Asian customers through on-site demonstrations and interactive experiences, attracting numerous buyers, industry partners, and media to stop and exchange ideas. During the three-day exhibition, we reached cooperation intentions with over 50 potential customers from countries such as Malaysia, Indonesia, and Thailand, and established strategic partnerships with multiple local distributors, further consolidating our company's brand influence in the Southeast Asian market. The Southeast Asian market is an important part of Dongguan Yuyang's globalization strategy. Through this LabAsia exhibition, we not only gained cutting-edge industry trends, but also strengthened our determination to empower regional customers with localized services. In the future, we will continue to optimize our product line, deepen cooperation with Southeast Asian partners, and assist in the technological upgrading of laboratories and industrial sectors in the region! Expanding globally and providing precise services - Dongguan Yuyang is always on the road.

On April 2, 2025, Dongguan Yuyang Instrument Co., Ltd. successfully signed a cooperation agreement with the well-known Russian certification agency SERCONS, with an order amount of $107303.10. As an authoritative certification body with 18 branches worldwide, SERCONS's head, Mr. Jackson, visited China specifically to meet with Mr. Llia, the General Manager of Yuyang Instruments, and completed the signing of the contract. This cooperation marks a deep collaboration between the two parties in the field of instrument certification. Yuyang Instrument stated that in the future, it will further expand its international market through technology sharing and resource integration, especially in the fields of energy efficiency testing and standardization services to achieve "co generation". According to public information, the transaction funds were settled through JPMorgan Chase Bank, N.A. Yuyang Instrument was established in Dongguan, China, and has long focused on the research and production of precision instruments. This cooperation is expected to promote the compliance process of its products in the Eurasian market.

Arab Center for Engineering Studies(ACES) order Building Materials Surface Burning Characteristics Test Apparatus(ASTM E84) from us this year, our engineer Mr. Lee immediately flew to Qatar for installation training after finishing ARABLAB. Director Jackson also flew to Qatar after finishing Metal Engineering Expo on 15th October. They arrived to Brazil Universidade Federal do Rio Grande do Sul (UFRGS) on 18th October.                And they are plan order Building Materials and Products Single Burning Item Test Apparatus (SBI) in 2025.We discuss about this.       Last but not least , To be honest , ACES order equipement from YUYANG total more than 500,000usd , they are our the most famous lab in the Middle East in Fire testing machine , Toy testing machine and Textile testing machine.     welcome contact them,if you have any testing requirement.  

We attended the ARABLAB 2024 in Dubai, our booth No. is S1-178, and took some machines together with us, they are some toy testing machines and Plastic ignition temperature tester.   We found many customers and famous lab inquiry tensile machine during expo, some of them had a long talk with us at that time; they kept our business card, and we will have further discussion after exhibition. Our customers are from India, Iran, Saudi, Oman, Jordan, Egypt, Russian, Pakistan, Kuwaitt, Qatar, Germany, UAE, Kenya, USA, UK, Uzbekistan, Malaysia, Sri Lanka, Zimbabwe, Saudi Arabia, Sudan and ect.   By the way , we will continue to attend next year's , because we cooperate with many famous lab in Middle-east,for example : ACES, Wimpry Laboratories,  TESTHUB LABORATORIES L.L.C  and ect. We visit customers in the Middle East every year.   Welcome to visit our factory if chance, also looking forward to becoming partners with more companies, labs…       Contact information: WhatsApp/MB:+86 13825752581 Fax: 86-769-26622869 Email: jackson.sun@yuyangtest.com www.yuyangtest.com

Joel Jesus Supan from STONEWALL SECURITY CONCEPTS, Philippines, to inspect the factory and close the deal in person.   In 6th, July, 2023, after a face-to-face confirmation, the two parties got in agreement, Joel Jesus Supan pay us cash. It is nice to meet him who is amiable, life-loving and very charming personally.     

Today we are greeting our foreign customers again. Nice!

Half day trip to Shuilian Mountain      On Sunday afternoon, our team of ten people, meet at the foot of the Shuilian Mountain Forest park, climb the summit together. On the way, we saw all kinds of plants and animals, many of which were not even famous. What impressed me most was to see a lot of carp in a shallow pond. They swam happily in the pond, as if we were climbing mountains, free and relaxed.      On the way, we also met a lot of strange friends climbing together, they are very energetic, although it is stop and go, but we are talking and laughing, not long ascended to the top of the mountain. At the top of the mountain, we saw a beautiful scene. At this moment, we felt very happy in body and mind. Under the tower, we took a picture together as a souvenir. In the evening, we began to go down the mountain, on the way to see the sunset for a long time, climbing friends have taken out a mobile phone, camera and so on, the moment of dusk, is really amazing many people!      Maybe there's a chance we'll see another sunset like this!    

  For Turkey market, we have few customers there, while so many customers asked us before, therefore, we decided to meet with them for reason one by one. Our foreign markting manager Jackson Sun spent eleven days, went to seven cities, met with twenty-five customers for business at that time. Furthermore, he also went to attend one expo, that is Plast Eurasia Istanbul 2018, and also acquainted some new companies there. Most of the clients are in Istanbul, it's a great and historical city, IMASAN Makine, Mobilite Sistem Yönetim ve Denetim, GCS Test Denetim ve Belgelendirme Tic. Ltd. Sti, Kazlicesme, UMTAS, Prowide Promosyon, MATIL MATERIALS TESTING & INNOVATION LABORATORIES CO and etc. As for Ankara, we also met some, TURKISH STANDARDS INSTITUTION, UTEST MATERIAL TESTING EQUIPMENT, BESMAK LAB, Rapido and etc.   Until August 2019, four customers placed orders to us, looking forward to cooperating with more...      

  Photovoltaic technology has undergone a tremendous transformation over the last few decades particularly in increased efficiency, lower system prices and PV technology adapted to various areas of application. New installation markets have emerged, while pressure to further reduce prices and improve the functionality of system components has intensified. The need to accurately predict and assess the performance, reliability and durability of entire PV power plants has become critical.   TÜV Rheinland (Shanghai) Co., Ltd also wants to do this test for PV modluar, we had suppied it to their India Bangalore branch this year, therefore, Stan Liu, Victor Feng, Edward Li, Yichi Zhang, Limin Zhou visited our factory for further discussion, and then went to Zhaoqing Leading Edge Group Limited for this machine, we also provided this laboratory.    We are prfessional for this machine, and made it for several times, please contact us if you also need it.      

  San Miguel Yamamura Woven Products is the manufacturer for they asked us this machine on May, and also prepare one test room for this machine. They came here for inspection it on 10thOctober, Ms. Teh is very professional, he gave us questions one by one, we spent one whole today to discuss, and our engineer Mr. Su also wrote down them, we will improve the machines as her requirement; factly, this is also as BS476 part 6 standard, so we have to check the standard carefully, modify the machine as soon as quickly, because they need it urgently. We also talked with other machines for building material fire test, they are interested in this industry, maybe they will purchase some next year.   Here is short video for this machine, please check it, if you want to know more, please also contact us. https://youtu.be/QFa4e2IRjGY  

  We attended the Wire China in Shanghai, our booth no. is W4F65, and took four machines together with us, they are Single Cable Vertical Fammability Tester, Cable Halogen Acid Gas Release Test Apparatus, Material Toxicity Classification Test Mcahine.   There are so many wire & cable manufacturers visited our booth during expo, some of them had a long talk with us at that time; they kept our business card, and we will have further discussion after exhibition. Our customers are from India, Pakistan, Bangladesh, Philippian, Malaysia, Australian, Poland, Russian, Turkey, Iran, Egypt and etc. Believe that some of them will purchase wire and cable testing equipment from us in the near future.   Welcome to visit our factory if chance, also looking forward to becoming partners with more companies, labs…

After finished working on Bangalore and Kolkata, we went to New Delhi and Bombay to visit customers.   RAMP IMPEX PVT. LTD, their address is 18,New Colony, Model Basti, Filmistan, Delhi , India, they purchased our machines before, we went there and chatted for a long time, they even arranged car to take us to visit customers.   JOHRI INSTRUMENTS, their address is 299/12, Chandan Vihar, Sant Nagar, Burari Road, Delhi – 110084, they also purchased some parts of Xenon Arc Test Chamber, we went to teach them how to contact them, and they are also interested in other testing equipments.   DNG TECHNOLOGIES PVT. LTD, their address is E-44/12, Okhla Industrial Area, Phase - II, New Delhi, India-110020, I have to say they are professional with cone calorimeter, they even sold almost forty sets in India market, we discussed other machines, such as flooring radiant heat flux test apparatus, glow wire tester and etc. They are interested in our fire testing equipment, and say they will try to promote this in India   Virgo Group, iTEST SOLUTIONS INC, iTEST SOLUTIONS INC, Giriraj Coated Fab Pvt.Ltd, Facade India Testing Inc, Facade India Testing Inc, BIO-SCAN INSTRUMENTS, we met them one by one, and they all appreciated our meeting, believe some of them will become our partner in the near future.    

  Factly, Bp Plyboard Pvt. Ltd India bought our machine last year, we also went there for installation and training, while their engineer doesn’t know how to operate well, therefore, we came here again, we also always pay attention to do after-sale service. There are also so many customers bought machines from us more than one time. We only stayed two days, showed their engineer Dasgupta how to do one by one step, he also wrote down them, and operated by himself; simultaneously, our engineer Mr.Su guided him carefully; lastly, he could operate the machine personnel, and than we left for New Delhi. Their purchase manager Prasad also recommended his friend to us, he also needs cone calorimeter, maybe he will place order this year. Here are some videos for your reference, please check it if you want to know this machine better, surely, you also could contact us directly.   https://youtu.be/KvOIUbFJeKI https://youtu.be/2KArgDhnVAE

  TUV Rheinland (India) Pvt. Ltd Bangalore branch bought our machine on the ending of May via LC payment terms, it took us more than two months finished it, and then delivered it by air, totally ten plywood boxes.   We went there on 5thSeptember, unpack these boxes, TUV had built test room, we also discussed the parameters, test method and etc. Prashanth G S and Kamalaksha CS are in charge of this item, they also gave some suggestions to us. We did some test in the next few days, includes adjust flow rate, modify software, amend flame direction and etc. We also spent some days to meet other customers in other cities after finished work in TUV. They appreciate our after-sale service, and maybe their Shanghai branch also will purchase this machine from us.   Here are some videos for your reference, please check it if you want to know this machine better, surely, you also could contact us directly.   https://youtu.be/vt--hckl1wk https://youtu.be/H-wv2WeTODY

2018 Malaysia international wire and cable exhibition, held in Kuala Lumpur International Exhibition Centre (KLCC) August 27-29, 2018. We went to this expo on 28th August, met with some customers, Master Tec Wire & Cable Sdn. Bhd., Power Cables Malaysia Sdn. Bhd., Fujikura Federal Cables Sdn. Bhd., Universal Cable (M) Bhd., Leader Cable Industry Bhd., Teraohm Powermark Sdn Bhd. etc. We chatted for a long time with them, there is also one seminar in the expo, there are so many peoples came here, most of cable companies from Malaysia done testing by themselves, so they need to use wire and cable testing equipment, we are specialized in this field, hope we also could help them do this, and make sure high quality with wire & cable from Malaysia Please visit our website for more testing equipments. www.flammabilitytestingequipment.com    

August 6thto 8th, Nobouoshi Yuihira and Paul Reibold, both from Tagawa Sangyo Co.Ltd, came to our factory for check Steel Construction Fire Resistance Coating Test Furnace, they also took some test samples, we did test many times, and discussed for some details, such as how to do heat insulation, how to protect motor. Tagawa Sangyo Co., Ltd. is Japan’s leading manufacturer and researcher of sustainable building materials and interior design products. Founded in 1924, their company specializes in lime-based products, and has earned a national recognition as the prime innovator in this field. This is our first cooperation with each other, we talked a lot, Mr.Paul stayed our factory two days, he also operated this machine one by one step, they are satisfied with its quality, we also will improve some properties as their requirements, such as use fireproof brick and pyrocotton, believe the machine will be better after improvement.. These are some YouTube links, maybe you also could refer to them. https://youtu.be/Jt1G4Oqhlis https://youtu.be/GAEgZbezJdY

  Wire and Cable taking place in Guangzhou is the largest technical fair dealing with wiring and cabling in South China and the second largest industry exhibition in the country at the same time. Numerous exhibitors show a wide range of products reaching from high, low and medium voltage cables up to optical fibre cables and the corresponding equipment and materials. As China is a leading market for wiring and cabling, the exhibition is aimed at attracting mainly customers and business partners from overseas in order to establish new international contacts. In the accompanying conference the latest technologies as well as intelligent solutions are presented. The Wire & Cable in Guangzhou took place from Monday, 11. June to Wednesday, 13. June 2018.

Toy imports from China have dropped to less than a half, according to industry estimates, since the government introduced tough quality criteria and mandated certification of compliance by accredited agencies from September 1. This has hit supply and pushed up retail prices 8-14 per cent, while wholesale prices have risen about 30 per cent, executives said, cautioning that further increases are likely. Supply is likely to be hit further during the festive season right up to Christmas, Mattel Inc, Future Retail and other retailers said, pointing to the paucity of infrastructure in the country to test imported toys and issue Bureau of Indian Standards (BIS) certifications. “There has been a drop of more than 50 per cent in imports of Chinese toys since the government introduced the norm,” said Manish Kukreja, president of All India Toy Manufacturers Association. “India imports four-five lakh stock keeping units (SKUs) annually. SKUs are actually varieties of toys. There are only three to four National Accreditation Board for Testing and Calibration Laboratories (NABL)-accredited laboratories in India which can test 100 -150 SKUs in a week.” Chinese toys account for an estimated 70 per cent of India’s Rs 5,000-crore toy industry. India needs a massive upgradation of infrastructure to handle the huge volume of toys, executives said. “The new import notification insists on conformance to the revised Indian standards and procuring certification only through NABL-accredited labs. However, not only are there thousands of SKUs in the Indian market, but also the testing ecosystem and infrastructure will have to be scaled up to meet the new testing mandates,” said Ishmeet Singh, country manager-India, Mattel Inc. “This will no doubt delay the availability of toys to children in the immediate months of festivals.” The comprehensive notification issued on September 1 prescribes criteria for physical and mechanical properties, chemical content, flammability, and testing for indoor and outdoor toys for both electrically and mechanically operated ones. The notification by the Director General of Foreign Trade said import of toys would be permitted freely only if the manufacturer abided by the Bureau of Indian Standards (BIS) benchmarks. Rakesh Biyani, director, Future Retail, said: “The consignments are getting stuck at the customs because of this new restriction norm. We import toys that are safe according to international standards. Now, those toys will have to comply by the Indian standard, which is almost same as the international standard. In the long run, the process will get delayed and availability of toys at our stores will dwindle. If this situation continues, there will be a drop of 50 per cent in toys in November at our stores. The new norm should become effective from April 2018.” Biyani said that prices have risen up to 14 per cent and may go up further.