Hss, carbide cutting tools end mills, drill bits, taps, saws, screw dies, blades, reamers, inserts.
Bench vices, mechanic vices, wood working vices, pipe vices, drill vices, & all other type of vices, T-bar cramps, machine & machine tools including power drilling machine, hand drilling machine, pillar type drilling machine, hand tools.
Air compressors, air nailer parts, air spray guns, air hoses, air couplers, air tools, power tools, hand tools, garden tools.
Tungsten carbide drills, carbide endmills, carbide step drills, carbide reamers, bulll endmills, toridal endmills, carbide reamers, carbide countersinks, ceramic inserts.Tool inspection
Rock drill, construction tools.
Cutting tools, precision tools, power tools, threading taps & dies, hand tools.
Cutting tools, including inserts, drill bits, end mills, taps and dies and such tools..
Uscamel binoculars, monoculars, telescopes, microscopes, spotting scopes & night vision binoculars.
Scientific instruments, laboratory instruments, process instrument like ph meter, conductivity meter, dissolved oxygen meter, photometer, spectrophotometer .Export
Fisheries/surimi whiteness and color measure instruments, food color testing instruments, meat color testing, fish color testing, spices color testing, fruit pulp color testing, dairy product color testing, bakery product color testing.
Analytical instruments like colorimeters, flowmeters.
Non sparking pliers are hand tools for holding, cutting or shaping objects in explosive environments. non sparking tools are ideally suited for use in environments where frictional sparks could cause an explosion, such as in environments with flammable gases, vapors or dust clouds, oil rigs, coal mines and grain elevators. We offer a wide variety of non-sparking pliers that can be used safely in environments where the risk of fire is increased. Product description 1. Non-sparking adjustable combination pliers are designed for clamping flat or cylindrical metal parts and can be adjusted to allow for two different sizes of openings. 2. Non-sparking non-magnetic corrosion resistant diagonal cutting pliers are ideal for cutting wire close to flat surfaces with ergonomically designed heavy-duty plastic handles for comfort and grip. 3. Non sparking pliers are most commonly used to hold large items and cut metal wires but are sometimes used instead of wrenches to tighten or loosen bolts and nuts. 4. The low sparking metals used to produce non sparking pliers, such as copper and aluminum, make them less likely to produce sparks during work. 5. The non-sparking quality is particularly beneficial in environments involving oil and gas works, which makes the product suitable for hazardous areas where combustible or explosive materials are present. Examples include pipeline construction and chemical plants. 6. The non-magnetic and corrosion resistant tools are made of a special aluminum bronze alloy and are suitable for a wide range of industries such as mining, oil and gas extraction, petrochemical refineries, energy production and transportation, manufacturing of explosives and much more. As a professional non sparking pliers manufacturer and supplier, we take great care to ensure that all the tools we produce are thoroughly tested. Non-sparking tools are safe and essential for anyone who regularly works around flammable materials.
1. A204E-1002 non-sparking putty knife is made of aluminum bronze alloy. 2. The cold rolling process is adopted to improve the mechanical properties such as the strength and service life of the blade. 3. The handle is made of high-quality wood, which is strong but environmentally friendly. 4. This tool is suitable for scraping the surface, applying putty, and removing rust in an inflammable and explosive environment. 5. The product has passed FM global certification. Product description The non sparking putty knife is made from a combination of aluminum bronze and is cold rolled to improve the mechanical properties of the blade such as strength and longevity. The overall length, including the handle, is 8 inches and the width of the blade is 3 inches. The tool is beryllium-free and Factory Mutual Warranty (FM) certified. Function This tool is suitable for scraping surfaces, applying putty, and removing rust inflammable and explosive environments. The spatula blade is pressed against the surface to remove or manipulate material. The non-sparking quality ensures that when the tool comes in contact with the target, the friction of the collision will not generate sparks. Applications Non-sparking putty knives are used for scraping surfaces or applying materials such as putty or plaster. This type of trowel is particularly suitable for environments involving oil and gas work, such as pipeline construction and chemical plants. Size: Number K mm L mm be-cu g al-cu g 203-1002 25 200 85 95 203-1004 40 200 90 105 203-1006 50 200 95 110 203-1008 65 200 100 120
"Non-sparking", "spark-reducing", "fire-resistant" or "fireproof" tools are the names given to tools made from metals such as brass, bronze, Monel metal (copper-nickel alloy), copper-aluminum alloy (aluminum bronze), or a copper-beryllium alloy (beryllium bronze). The tensile strength of the preferred "non-sparking" metal is lower than that of the steel normally used to make tools. The lower tensile strength means that the metal has less strength or tear resistance when stretched under test conditions. It also means that these tools are softer, wear faster, and must be trued more frequently than ordinary steel tools. What is the most important thing to know about "non-sparking" tools? Non-sparking tools also produce sparks, sometimes called "cold sparks". The heat from these cold sparks is so low that they do not ignite carbon disulfide, which has the lowest ignition point of any substance known to man. Therefore, while "non-sparking" tools may reduce the risk of sparking, they do not eliminate the possibility of sparking. The name "non-sparking" is misleading because these tools can produce sparks: the term "spark-reducing tools" better describes these tools.
Bomb Calorimeter ASTM D240: Reliable Measurement of Heating Value of Fuels The Bomb Calorimeter ASTM D240 is an essential piece of laboratory equipment used to measure the calorific value or heating value of fuels, which is critical for assessing their energy content. This testing apparatus is widely used in various industries, including power generation, automotive, chemicals, and biofuels, to evaluate fuel efficiency and combustion characteristics. At KDM Global, we manufacture and supply the Bomb Calorimeter ASTM D240 with precise calibration to ensure accurate and reliable results for fuel testing. Our product helps businesses comply with the ASTM D240 standard, providing an essential tool for energy evaluation and fuel quality control. Standards: The Bomb Calorimeter ASTM D240 is designed to comply with the following industry standard: ASTM D240: This standard provides the method for determining the calorific value of solid, liquid, or gaseous fuels. It outlines the procedure for conducting combustion tests to determine the amount of heat released when a fuel is burned in excess oxygen. How It Works: The Bomb Calorimeter ASTM D240 operates by placing a fuel sample inside a bomb calorimeter chamber and igniting it under controlled conditions. The heat released during combustion is absorbed by a surrounding water jacket, and the temperature rise is measured to determine the calorific value of the fuel. The process involves: Sample Preparation: A known amount of fuel is precisely weighed and placed in the bomb calorimeter chamber. Oxygen Environment: The sample is surrounded by excess oxygen to ensure complete combustion. Ignition: The fuel is ignited, and the heat generated by combustion is transferred to the surrounding water jacket. Temperature Measurement: The temperature rise in the water jacket is recorded, and this data is used to calculate the calorific value of the fuel. Key Features: Compliance with ASTM D240: Fully adheres to the ASTM D240 standard for accurate and reliable fuel testing. Precise Measurement: Offers highly accurate determination of the heating value of solid, liquid, and gaseous fuels. Durable Design: Built with high-quality materials for long-lasting performance and resistance to wear. Easy Operation: Designed for user-friendly operation with clear instructions for sample loading, ignition, and temperature monitoring. Temperature Control: Equipped with a temperature monitoring system to provide precise and accurate results. Calibration: Comes with an inbuilt calibration system to ensure that measurements are consistent and accurate over time.
Smoke Visibility Tester UIC 564: Ensuring Safety in Fire Events The Smoke Visibility Tester UIC 564 is a crucial piece of fire testing equipment used to assess the visibility of smoke emitted from materials when exposed to fire. Designed to meet UIC 564 standards, this apparatus is widely used in industries such as railway, construction, and transportation, where visibility in the event of a fire is essential for ensuring safe evacuation and effective firefighting efforts. At KDM Global, we manufacture the Smoke Visibility Tester UIC 564, offering businesses a reliable and precise tool for evaluating smoke density and its impact on visibility during a fire scenario. Our product ensures that materials meet the rigorous safety standards required for use in fire-prone environments. Standards: The Smoke Visibility Tester is designed to comply with the following key standard: UIC 564: This standard defines the method for testing the smoke density of materials in terms of visibility. It helps measure the amount of smoke produced during combustion and how it affects the visual clarity in an enclosed space. The UIC 564 standard is particularly used in the railway industry, but its applications extend to other sectors where smoke visibility is critical in fire safety. How It Works: The Smoke Visibility Tester â?? UIC 564 works by exposing a material sample to a controlled flame in a test chamber while monitoring the smoke density produced during combustion. The tester measures the amount of smoke and its effect on visibility. Key steps include: Sample Preparation: A representative sample of the material is placed in the test chamber. Smoke Generation: The material is ignited, and the resulting smoke is monitored and analyzed. Visibility Measurement: A sensor is used to assess the visibility within the chamber, determining the extent to which smoke obstructs vision. Results: The test produces a visibility index or smoke density value that indicates the material's performance in real fire situations. Key Features: Compliance with UIC 564: Fully meets the requirements of the UIC 564 standard, ensuring reliable and consistent smoke visibility testing. Precise Smoke Density Measurement: Offers accurate measurement of smoke density and visibility, helping evaluate the effectiveness of materials in fire events. User-Friendly Interface: Easy-to-operate controls and intuitive display for quick test setup and results interpretation. Durable Construction: Built with high-quality materials to endure continuous use and demanding testing conditions. Versatile Application: Suitable for testing a wide range of materials, including railway components, construction materials, and textiles.
Single Flame Source Tester (ISO 11925-2): Ensuring Material Fire Safety The Single Flame Source Tester (ISO 11925-2) is an essential fire testing apparatus used to assess the ignitability of materials when exposed to a single flame source. This apparatus evaluates the reaction of materials to small-scale flame exposure, simulating potential fire hazards in real-world conditions. It is widely used in industries like construction, automotive, and railways to ensure that materials do not easily catch fire or spread flames in case of a fire emergency. At KDM Global, we manufacture advanced Single Flame Source Testers that meet ISO 11925-2 standards, ensuring the highest level of fire safety compliance for a variety of materials. Our products provide accurate results, helping manufacturers meet regulatory requirements and ensure safety. Standards: The Single Flame Source Tester complies with the following key standard: ISO 11925-2: This standard specifies the method for testing the ignitability of materials exposed to a small flame. It is used primarily to assess the flammability of materials such as textiles, foams, and other building components, which are exposed to an ignition source in real-world fire conditions. How It Works: The Single Flame Source Tester works by exposing a material sample to a controlled, small-scale flame for a specific duration. The test measures the following: Ignition Time: How quickly the material ignites when exposed to the flame. Flame Propagation: Whether the flame spreads across the material surface. Afterglow: The material's ability to extinguish after the flame source is removed. This test helps identify materials that pose a high risk of fire spread or ignition, ensuring they are suitable for use in fire-sensitive environments. Key Features: Accurate Testing: The apparatus provides precise measurements of ignition time, flame propagation, and afterglow characteristics. Compliant with ISO Standards: Meets ISO 11925-2 for global fire safety standards. User-Friendly: Simple operation with intuitive controls for ease of use. Versatile: Suitable for testing a wide range of materials used in construction, automotive, and railways. Durable: Built with high-quality materials to withstand continuous, high-precision testing. Applications: Construction Industry: Tests materials such as insulation, wall panels, and flooring for fire safety compliance. Automotive Industry: Used to test materials like seats, dashboards, and interior fabrics to ensure they meet safety standards for fire resistance. Railway Sector: Ensures materials used in train interiors, such as fabrics and seating materials, do not easily ignite or support the spread of flames.
Product name: Band saw cutting Detailed product parameter description: Product model: Band saw cutting Maximum cutting diameter: 450mm Maximum cutting width: 650mm
Product Name: Ultrasonic Flaw Detector Detailed product parameter description: Product model:TUD280 ultrasonic flaw detectorTUD280
Product Name: Portable Hardness Tester Detailed product parameter description: Product model: TH110 portable hardness tester TH110
