Features
1. 7-inch tft lcd touch-screen, humanized-machine interaction mode. Operation simply and powerful.
2. Multiple test modes£º
Instant test mode: insert the test card, testing immediately
Automatic test mode: insert the test card, automatic timing, automatic testing
Sequence test mode: used for multiple patients and batch testing, following the preset sequence, automatica timing, promote and test.
3. Large storage, can store up to 100, 000 records. Results records can be queried and processed.
4. Built-in arm microprocessor, fast and powerful.
5. Large items storage, can store 10, 000 items. Any items can be added by external card.
6. Supporting multiple interfaces, usb, rs232 and network interface
7. Supporting bar-code scanning.
8. Replacing light source and modify algorithms are the two ways which are suitable for different reagent supplier.
9. Built-in thermal printer, print test results on need.
10. Mifare one card can save different lot of reagents project items information
NCD 1409 Toxicity Test Apparatus: Ensuring Fire and Toxicity Safety Compliance
The NCD 1409 Toxicity Test Apparatus is a vital fire testing device used to evaluate the toxicity of gases released by materials when exposed to fire. This testing apparatus is essential for ensuring that materials, especially those used in construction, automotive, and railways, do not emit harmful or toxic gases during a fire scenario. The NCD 1409 Toxicity Test Apparatus helps manufacturers meet regulatory safety standards, ensuring that their products are safe and do not pose additional risks in case of a fire emergency.
At KDM Global, we specialize in the manufacture of high-quality NCD 1409 Toxicity Test Apparatus that complies with international standards, ensuring the safety of materials in various industries.
Standards:
The NCD 1409 Toxicity Test Apparatus adheres to the following standard:
NCD 1409: This standard defines the procedure for testing the toxicity of gases released from materials when they are exposed to high heat or flames. It measures the levels of carbon monoxide (CO), carbon dioxide (CO2), and other toxic gases that may be produced, helping to assess the overall safety of materials used in environments at risk of fire.
How It Works:
The NCD 1409 Toxicity Test Apparatus tests materials by exposing them to a controlled heat or flame source and measuring the gases released. The apparatus features:
Gas Collection System: Collects and analyzes gases emitted during combustion.
Toxic Gas Detection: Measures the levels of harmful gases like carbon monoxide, carbon dioxide, and other toxic substances.
Precise Control: Ensures a controlled test environment for accurate and reproducible results.
The apparatus helps to assess the potential danger that materials might pose during a fire, contributing to the development of safer products for consumers.
Key Features:
Compliance with NCD 1409: Fully adheres to the NCD 1409 standard, ensuring regulatory compliance.
Advanced Gas Detection: Accurately detects and measures toxic gases released during combustion.
User-Friendly Interface: Simple controls and a digital display to make operation straightforward.
Durable Construction: Built to withstand long-term, high-performance testing in various industries.
Versatile: Ideal for testing a wide range of materials, including those used in construction, automotive, and railway industries.
Applications:
Construction Industry:
Tests materials like insulation, wall panels, and flooring for the level of toxic gases they release during fire exposure.
Automotive Industry:
Used to evaluate plastics, rubbers, and interior materials for the emission of toxic gases, ensuring safety for vehicle occupants in case of a fire.
Railway Sector:
UL 94 Chamber (Horizontal Vertical Flame Chamber): Ensuring Flammability Compliance
The UL 94 Chamber (Horizontal Vertical Flame Chamber) is a critical fire testing apparatus designed to evaluate the flammability of plastic materials. This test apparatus helps manufacturers determine the behavior of materials when exposed to flame, which is crucial for compliance with UL 94 standards. It assesses whether a material will ignite, burn, or extinguish itself when subjected to a standardized flame exposure, simulating real-world fire conditions.
At KDM Global, we manufacture high-quality UL 94 Chambers that are fully compliant with UL 94 standards, ensuring that materials, especially plastics, meet fire safety regulations for a variety of industries, including automotive, electronics, and construction.
Standards:
The UL 94 Chamber is designed to meet the following key standard:
UL 94: This is a widely recognized standard developed by Underwriters Laboratories (UL) that defines the flammability testing of plastic materials. The standard classifies materials based on their ability to resist ignition and how they behave when exposed to fire. The Horizontal Flame Test (H) and Vertical Flame Test (V) are the two primary methods used to assess plastic materials.
How It Works:
The UL 94 Chamber tests the material by exposing it to a standardized flame source in both horizontal and vertical positions. Key parameters tested include:
Ignition Time: Measures the time it takes for the material to ignite upon exposure to the flame.
Flame Propagation: Evaluates how the flame spreads across the material's surface.
Afterflame and Afterglow: Assesses the duration of combustion after the flame is removed, which is critical in preventing further ignition or fire spread.
This test is primarily used for assessing plastic components, ensuring they are safe for use in consumer products, automotive parts, and building materials.
The Non-Combustibility Test Apparatus is designed to assess the combustibility of building materials under high heat exposure. It is essential for evaluating materials used in construction, automotive, and other industries to ensure they do not ignite or sustain combustion under fire conditions. This testing apparatus helps manufacturers comply with fire safety regulations, ensuring the safety of buildings, vehicles, and other infrastructure.
At KDM Global, we specialize in the manufacture of advanced Non-Combustibility Test Apparatus that meets global safety standards, providing reliable results to ensure compliance with fire resistance requirements.
Standards:
The Non-Combustibility Test Apparatus is designed in compliance with these international standards:
BS 476 Part 4: This standard specifies the test for non-combustibility of materials in building construction. It is crucial for materials used in walls, roofs, and other structural elements to be assessed for their ability to not catch fire or support combustion.
ISO 1182: This standard tests materials for non-combustibility by subjecting them to a furnace with controlled temperature. It is widely used in construction and other sectors where fire safety is a priority.
How It Works:
The Non-Combustibility Test Apparatus tests materials by exposing them to a controlled furnace environment. Key parameters evaluated include:
Temperature Resistance: Measures how the material behaves under high temperatures.
Non-Combustibility: Determines if the material ignites, smolders, or supports combustion.
Heat Release: Evaluates how much heat is emitted by the material during exposure.
Key Features:
Precision Testing: Equipped with advanced sensors to measure heat resistance and combustion characteristics.
User-Friendly: Simple controls and easy-to-understand results.
Durable: Made with high-quality materials designed to withstand high-temperature testing conditions.
Compliant: Meets international standards like BS 476 Part 4 and ISO 1182 for fire safety compliance.
Applications:
Construction Industry:
Tests materials like wall panels, roofing materials, and flooring to ensure they do not support combustion in case of fire.
Automotive Industry:
Used to test materials such as interior fabrics, plastic components, and seats for fire resistance and safety.
Railway Sector:
Ensures materials used in train interiors, including fabrics and insulation, meet non-combustibility standards.
Aerospace:
Used to evaluate materials like insulation and interior components to ensure safety during fire conditions.
The Surface Spread of Flame Test Apparatus is designed to measure the spread of flame on the surface of materials. This is critical for ensuring that construction materials, fabrics, and other products used in various industries are compliant with fire safety standards. The test assesses how far and how fast a flame spreads over the material's surface when exposed to a flame source.
Standards:
BS 476 Part 7 This is the primary standard for the Surface Spread of Flame Test in the UK, which provides guidelines for measuring how materials spread flame on a vertical surface.
Key Features:
Test Chamber: Provides a controlled environment for testing.
Flame Source: Delivers a controlled flame that allows for consistent results.
Measurement Scale: Tracks the extent of flame spread along the material's surface.
Applications:
Construction Industry: To evaluate materials used in building structures, walls, and flooring.
Automotive and Aerospace: For testing the flammability of materials used in vehicle interiors and aircraft.
Furniture and Upholstery: Used in the furniture industry to test materials like upholstery, foam, and fabrics.
Why Choose KDM Globals Surface Spread of Flame Test Apparatus?
Accurate Results: Designed to provide precise flame spread measurements.
Compliance: Meets BS 476 Part 7 standards, ensuring full compliance with safety regulations.
Durable and Reliable: Built for consistent performance in various industrial applications.
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ISO 5658 Lateral Spread of Flame Test Apparatus Fire Testing Equipment for Material Safety
The ISO 5658 Lateral Spread of Flame Test Apparatus is a crucial fire testing machine used to evaluate the flame spread characteristics of materials in response to fire. Designed in compliance with ISO 5658 and other international standards, this apparatus helps manufacturers ensure that their materials, such as flooring, insulation, and building materials, meet strict fire safety regulations.
Key Features:
Accurate Flame Spread Measurement: The Lateral Spread of Flame Test Apparatus measures the rate of flame spread across the surface of materials, simulating real-world fire scenarios to assess material safety.
Compliance with Global Standards: Fully compliant with ISO 5658, BS 476 Part 6, and other fire safety testing standards, ensuring that materials meet required safety thresholds for flame resistance and fire prevention.
Versatile Testing: This apparatus is ideal for testing a wide range of materials, including flooring, wall panels, insulation, and roofing materials, commonly used in the construction, automotive, and railway industries.
Precision Testing Equipment: Equipped with advanced sensors and control systems, the ISO 5658 apparatus offers precise control over the flame source and test environment, ensuring repeatability and accuracy in test results.
Reliable and Durable: Designed for long-term use, the Lateral Spread of Flame Test Apparatus is built to withstand the rigors of high-volume testing and offers a reliable means of evaluating fire safety over time.
Applications:
Construction: Essential for testing building materials like flooring, roofing, and insulation to evaluate their fire resistance and flame spread properties.
Automotive: Ensures automotive components like seats, interior panels, and insulation meet fire safety standards for passenger protection.
Railways: Tests railway materials such as seating fabrics, insulation, and flooring for flame spread resistance to meet stringent fire safety standards.
Why Choose KDM Globals ISO 5658 Lateral Spread of Flame Test Apparatus?
At KDM Global, we offer high-quality, ISO 5658-compliant fire testing equipment that helps you meet industry standards. Our Lateral Spread of Flame Test Apparatus ensures the fire resistance and flame spread of materials are accurately assessed, giving you the confidence to comply with fire safety regulations.
ISO 5659 Smoke Density Test Apparatus Fire Safety Testing Equipment for Materials
The ISO 5659 Smoke Density Test Apparatus is a vital fire testing machine designed to evaluate the smoke production of materials when exposed to fire. Meeting international standards like ISO 5659, this apparatus is crucial for assessing materials used in construction, automotive, and railway industries. The test helps determine how much smoke a material produces during combustion, which is critical in fire safety assessments.
Key Features:
Accurate Smoke Density Measurement: The Smoke Density Test Apparatus measures the optical density of smoke generated by burning materials, providing a clear indication of a material's smoke emission under controlled fire conditions.
Compliant with International Standards: Fully compliant with ISO 5659, ASTM E662, and BS 6853, ensuring that materials meet global safety and regulatory requirements for fire resistance and smoke emission.
Versatile Testing: Suitable for testing a wide range of materials, including plastics, composites, rubbers, and insulation materials used in various industries such as automotive, construction, and railways.
Real-Time Data: Provides detailed data on the rate of smoke release during a controlled combustion process, helping engineers and manufacturers understand the flammability and smoke toxicity of their materials.
High-Precision Instrumentation: The apparatus features a high-precision optical sensor and smoke chamber that captures real-time data, ensuring that your materials meet the fire safety regulations required by various industries.
Applications:
Construction: Testing building materials like insulation and cladding for smoke toxicity and fire resistance.
Automotive: Ensures vehicle components, such as seat covers and dashboards, do not produce excessive smoke in the event of a fire.
Railway: Ensures railway materials such as seats, flooring, and insulation meet fire safety standards and do not contribute to smoke hazards in case of fire.
Why Choose KDM Globals ISO 5659 Smoke Density Test Apparatus?
At KDM Global, we specialize in providing high-quality, reliable fire testing equipment. Our ISO 5659 Smoke Density Test Apparatus helps manufacturers ensure that their materials meet critical fire safety standards. Whether youre testing for smoke toxicity or flame retardancy, our apparatus ensures accurate, reliable, and compliant results.
Fudau is a professional manufacturer of Erlenmeyer flasks, and here is the product information for our 1000ml Erlenmeyer flask:
Height: 216.8mm
Neck diameter: 39mm
Bottom diameter: 127mm
Working Volume: 500ml
Material: Polycarbonate (PC)
Cap Options: You can choose between a PC flask with a vent cap or a PC flask with a seal cap.
Manufacturing Standard: Our products are produced in accordance with the c-GMP (current Good Manufacturing Practices) standard to ensure quality and safety.
Cap Material: The bottle cap is made of high-strength HDPE (High-Density Polyethylene) material.
Cap Design: The cap is designed with a PTFE (Polytetrafluoroethylene) hydrophobic and breathable membrane. This design ensures that, even after coming into contact with liquids, it won't compromise the sealing and ventilation properties of the breathable membrane.
Flask Material: Our Erlenmeyer flasks are made from high-quality polystyrene (PS) raw material, which conforms to USP VI medical grade standards, ensuring the flask's suitability for a wide range of applications.
The 96-well cell culture plate boasts a single well surface area of 0.32 cm², making it an ideal choice for various applications. The recommended operating volume of 0.1-0.2ml/well ensures optimal conditions for cell growth and maintenance. What truly sets Fudau's 96-well cell culture plate apart is the use of high-quality polystyrene (PS) raw material, which conforms to USP VI medical grade standards. This commitment to quality ensures that your experiments are conducted in a safe and controlled environment, free from contaminants that may compromise your results. 96-well cell culture plate is cellular biocompatible, adhering to ISO:10993 standards. This means that it is not only safe for your cells but also maintains the integrity of your experiments. Additionally, each plate is delivered to you in a sterile and endotoxin-free condition, further minimizing any risk of contamination.
Whether you are a researcher in a cutting-edge biotechnology company, a scientist in a renowned research laboratory, a medical professional in a hospital, or a dedicated technician in a clinical lab, you understand the pivotal role that cell culture plates play in the experimental process. In pharmaceutical companies, cell culture plates are a fundamental component of drug development and testing. The 96-well format allows for high-throughput screening, enabling the assessment of multiple drug candidates simultaneously. Hospitals and clinical labs employ cell culture plates in diagnostic testing and patient care. These plates are indispensable for culturing patient samples, performing assays, and conducting vital research to advance medical knowledge and patient care.
A 500ml Erlenmeyer flask is crafted from premium borosilicate glass, this flask is resistant to thermal shock and chemical corrosion, ensuring its longevity and performance in demanding laboratory environments. The 500ml capacity makes it ideal for mixing, storing, and heating liquids, offering versatility and convenience for various scientific processes.
Features:
Dimensions: With a height of 178.8mm, a neck diameter of 39mm, and a bottom diameter of 101mm, this flask boasts ideal dimensions for a variety of laboratory applications. Its design ensures compatibility with a wide array of experimental setups.
Working Volume: The flask provides a substantial working volume of 125ml, making it versatile for a multitude of applications. Whether you're growing cell cultures, conducting chemical reactions, or storing samples, this flask accommodates your needs with ease.
Cap Options: Fudau understands the significance of a reliable flask cap. We offer two cap options for the 500ml Erlenmeyer flask: the PC flask with vent cap and the PC flask with seal cap. The vent cap facilitates controlled ventilation, while the seal cap ensures airtight integrity for secure sample storage.
c-GMP Standard Production: Our commitment to quality is unwavering. The 500ml Erlenmeyer flask is produced in strict adherence to current Good Manufacturing Practices (cGMP), ensuring that it meets the highest standards of quality and reliability.
PTFE Hydrophobic and Breathable Membrane: The flask's cap is equipped with a PTFE hydrophobic and breathable membrane, a feature that sets it apart. Even after coming into contact with liquids, the membrane retains its sealing and ventilation properties, ensuring the integrity of your experiments.
USP VI Medical Grade Polystyrene (PS): We use high-quality polystyrene (PS) raw material that conforms to the United States Pharmacopeia (USP) VI medical grade standard. This guarantees a contaminant-free environment for your experiments, crucial for Pharmaceutical Companies, Biotechnology Companies, Research Laboratories, Hospitals, and Clinical Labs.
Digital Zirconia Crowns Layered Zirconia Crowns
Product Description
Product Name: Layered zirconia crowns
Description:
Crowns made of zirconia are becoming increasingly common, and they do offer some advantages.
Strength
One of the biggest advantages of zirconia is its strength and durability. Consider how much force your back teeth exert on the food that you chew.
Your crowns need to be made of a strong material, so zirconia may be a good choice for crowns in the back of your mouth. Also, because zirconia is so strong, a dentist won't have to do as much preparation of your tooth.
Longevity
Zirconia-based crowns fared just as well over the course of 5 years as metal-based crowns. And crowns made of zirconia, called monolithic zirconia crowns, are especially durable.
Biocompatibility
Zirconia is the choice of many dentists for its biocompatibility, which means it's less likely to provoke the body into producing a reaction or immunological response like inflammation. A study confirms this, and it also found only a limited amount of cytotoxicity.
Mei Ya Ya Dental Lab from China are one of the best dental labs, and also it is a high level digital dental lab.
Why Mei Ya Ya Dental Lab use so good and much more expensive materials?
Becasue we understand the materials are very important to the health of patients!
Why the quality of Mei Ya Ya Dental Lab can be above average and be stable?
Because we are more organizing in quality checking and hired more skilled techncians!
Manufacture Mei YaYa Dental Lab
Quality Stable and consistency
Customer service Professional
Shipping company DHL, UPS or Fedex
Materials Transluency Zirconia
Guarantee Crowns 5 Years, Dentures 2 years
Production time 3 - 4 days in lab
Advantage Better materials, better technicians
MYY is a full service dental laboratory that has been builded good and stable partnership with dentist and oversea dental labs since 2000. We are set up to make dentists lives easier. We provide exceptionally high quality lab work at extremely competitive prices, backed up by exemplary customer service.
Nowadays, Merdental goes up more than 200 experienced technicians. We specialize in crown, bridge, implant and removable prosthetic restorations. All cases undergo rigorous quality control checks by our certified dental staff to ensure the work we dispatch meets the high expectations of our customers. Our appliances are produced overseas in the state-of-the-art premises of our manufacturing partner. All our products are manufactured from materials meeting all CE / FDA/TAG requirements. Our manufacturing laboratory has ISO 13484: 2016 and SGS accreditation.
We constantly monitor changes in the industry to ensure our service is efficient, up to date and always cost effective for our clients. We have builded up partnership with dentist and dental labs from more than 20 country, such as America, Canada, France, Germany, UK.
If you have any questions or would like to start using the services of us, then please feel free to contact us. We will be your good and reliable partner.
Pipettes are indispensable tools in laboratories, research facilities, and medical settings, used to accurately measure and transfer liquids. To ensure consistent and reliable results, it's crucial to properly maintain and care for your pipettes. In this article, we'll provide essential tips for pipette maintenance to help prolong their lifespan and maintain accuracy.
1. Regular Cleaning
Clean your pipettes regularly to prevent cross-contamination between samples. Use a mild detergent and distilled water to clean the external surfaces. For the internal components, use a lint-free cloth dampened with isopropanol or ethanol to wipe down the pipette shaft and piston. Make sure to follow the manufacturer's guidelines for cleaning to avoid damaging delicate components.
2. Calibrations and Verification
Schedule regular calibrations and verifications of your pipettes to ensure accurate measurements. Calibration checks should be performed by trained professionals using calibrated equipment. Verification using gravimetric or photometric methods can help confirm the accuracy of your pipettes when dispensing specific volumes.
3. Proper Handling
Handle pipettes with care to avoid mechanical damage. Always use the appropriate force when operating the plunger to prevent excessive wear on internal components. Avoid dropping pipettes or subjecting them to impact, as this can lead to misalignment and inaccurate measurements.
4. Tip Selection and Replacement
Choose pipette tips that are compatible with your specific pipette model. Use high-quality, certified tips to ensure accurate and consistent results. Replace tips between each sample to prevent cross-contamination. Make sure the tips are securely attached to the pipette to prevent leakage or imprecise measurements.
5. Storage and Handling
Store your pipettes in a clean and dry environment to prevent dust and contaminants from affecting their performance. Use pipette stands to keep them upright and avoid contact with surfaces. If your pipettes are not in use for an extended period, store them with the plunger released to relieve stress on internal components.
Conclusion
Proper maintenance of pipettes is essential for obtaining accurate and consistent results in laboratory and medical settings. By following these tips and adhering to manufacturer guidelines, you can ensure that your pipettes remain in optimal condition, extend their lifespan, and contribute to the reliability of your research and analyses.
microsyringe
1. Thickened glass material, high transparency, accurate scale;
2. Stainless steel metal push rod, sturdy and durable, comfortable feel;
3. Metal inner screw head, tight link, safe and stable;
A small selection of common laboratory consumables such as filter tips.
DaklaPack can also provide you with many common everyday laboratory consumable items.
Cant find what you are looking for in our webshop? contact us today - we can probably source it for you through our wide network of business partners.
- Bloodlabel 10
- Tempmate
- Temperature adhesive strip
- Vial opener
- Cotton balls
- Filter tip sterile
NG500 lab use nitrogen generator
Product Description
NG500 Nitrogen Generators Lab nitrogen gas
Working Principle
Nitrogen generator uses the electrocatalysis method to separate air gas Stable and pure air enters electrolysis cell and oxygen in the air is separated then left nitrogen gas is outputted
Application
Carrier gas for various brands of GC and GCMS
Make up gas for GC
Supplementary gas
3Gas for Gel Permeation Chromatograph
4LCMSLiquid ChromatographMass Spectroscopy and Thermal Analyzer
5Other field that ask pure N2
Features
1 Program control Nitrogen gas could be adjusted automatically according to usage flow under stable pressure and flow
2 Advanced technology It uses noble metal as catalyst high catalytic efficiency and large nitrogen production
3 Twolevel catalysis Oxygen content in nitrogen is less than 3ppm
4 Lower moisture in nitrogen gas
Technical Parameters
Model NG300 NG500
Output Flow mlmin 0 300 0 500
Output Pressure 042
Nitrogen Purity 99999 compared with O2
Input Air Pressure 04
Power Voltage V 22015Â 50 60Hz
Input Power W 110 200
Weight kg
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