Showing 1–15 of 39 results
3-ply surgical masks are disposable masks designed for use in healthcare settings to protect patients and healthcare workers from airborne particles, fluids, and droplets. These masks are made of three layers of non-woven material, including a melt-blown filter layer that provides high-level filtration and a soft inner layer for added comfort.
The outer layer of the mask is made of a fluid-resistant material that helps to repel fluids and prevent droplets from entering the mask. The middle layer is the melt-blown filter layer, which provides high-level filtration against small particles and microorganisms. The inner layer is made of a soft, moisture-absorbing material that helps to keep the mask comfortable and prevents irritation.
Package: 500 units/pack.
10 Packages: 5000 units – Price per 10 packages.
ConductScience offers 3-Plye Surgical Masks.
3-ply disposable masks are commonly used in various settings to protect individuals from respiratory droplets and other airborne particles. These masks are made of three layers of non-woven polypropylene material, which provides filtration and comfort.
The outer layer of the mask is designed to repel water and prevent droplets from entering the mask. The middle layer is the filtration layer that filters out small particles, such as dust and pollen. The inner layer is made of a soft, moisture-absorbing material that helps to keep the mask comfortable and prevents irritation.
1 Package: 100units/pack.
50 packages: 5000 units. Price per 50 packages.
ConductScience offers the 3-Ply Disposable Masks.
The Benchtop 4-Vial COD Reactor is used for the digestion of COD (Chemical Oxygen Demand) samples.
The principle behind COD detection is that almost all organic molecules can completely oxidize to carbon dioxide when exposed to an acidic environment and a powerful oxidizing agent. COD is commonly expressed as the mass of oxygen consumed over the volume of the solution.
ConductScience offers the COD Reactor.
Our Benchtop Digital COD Reactor is widely used in the fields of electroplating, petrochemical, pelage, process hides, pharmacy, food processing, etc.
This product has two temperature control regions, which can meet the needs of different operating temperatures.
The Benchtop FiberSpin NMR is a compact and portable device with a permanent magnet, capable of accurately measuring spin-finish on fibers using the CPMG pulse sequence. It has a wide range of spin-spin and spin-lattice relaxation times, providing flexibility for different types of samples. The analyzer has a user-friendly interface and is suitable for use in a variety of laboratory settings.
ConductScience offers the Benchtop FiberSpin NMR device.
The Benchtop NMR Analyzer for Seed Oil Content Analysis is a device designed for the precise and rapid analysis of seed oil content. Its advanced technology, provides highly accurate measurements, to optimize production processes and maximize yield. The instrument is compact and easy to use, making it an ideal choice for laboratories, research facilities, and production sites. Additionally, requires minimal maintenance, reducing downtime and costs associated with instrument upkeep.
ConductScience offers the Benchtop NMR Analyzer for Seed Oil Content Analysis.
Benchtop NMR for Solid Fat Content Analysis is a solution for accurate and reliable solid fat content analysis. Our Benchtop NMR for Solid Fat Content Analysis utilizes the latest technology to quickly and easily determine the solid fat content in a wide range of samples including dairy products, oils, and fats. Its high throughput capabilities and low maintenance requirements make it a cost-effective solution for businesses of all sizes.
ConductScience offers the Benchtop NMR for Solid Fat Content Analysis.
The Benchtop Spectrophotometer LH-T725 adopts high-brightness LED cold light source and advanced parallel optical structure. It is developed according to national environmental standards. It is equipped with an intelligent detection system, collecting data dozens of times per second, filtering algorithm to filter out interference and improve data accuracy. The 7-inch IPS large touch screen makes the test results intuitive and clear and is a good assistant for scientific research, data analysis, and water quality testing.
The Clegg Impact Soil Tester is a device used to measure the hardness and compaction of the soil. It works by dropping a hammer of known mass from a set height and measuring the energy required to penetrate the soil to a set depth. The result is then used to determine the soil’s hardness and compaction, which can be useful information for various applications, such as construction and agriculture.
CPE (Chlorinated Polyethylene) gowns are commonly used in laboratory settings to protect individuals from exposure to hazardous materials or infectious diseases. These gowns are made from a lightweight, fluid-resistant material that is resistant to chemicals, punctures, and tears.
CPE gowns are designed to cover the entire body and provide full coverage from the neck down to the ankles. They are typically secured at the back with a tie closure, and they are available in a range of sizes to ensure a comfortable and secure fit.
1 Package: 100gowns/package.
5 Packages: 500gowns. Price per 5 packages. Inquire for more information.
ConductScience offers CPE Gowns.
Introducing the DEXA ConductScan System by ConductScience, an imaging solution designed to revolutionize the analysis of bone health. This advanced Dual-Energy X-ray Absorptiometry (DEXA) system offers unparalleled accuracy and efficiency in bone density measurement and body composition assessment.
The DEXA ConductScan System empowers researchers and clinicians by delivering high-resolution images and precise quantitative data for in-depth evaluation of skeletal health. With its advanced scanning capabilities, it enables the precise identification of conditions such as osteoporosis, osteoarthritis, and other bone-related disorders, facilitating early detection and personalized treatment plans.
Diffusion cell apparatus is used to measure in vitro release of drugs from creams, ointments, oils, and gels.
Conduct Science’s diffusion cell apparatus can objectively reflect the speed and degree of penetration of drug preparations through the skin of living animals in the specified solvent, and scientifically screen effective drugs with transdermal absorption conditions. It is one of the internationally recognized standard detection methods for drug transdermal release.
ConductScience offers the Diffusion Cell Apparatus. Images are illustrative.
The Dissolved Oxygen electrode sensor device is designed for accurate and reliable measurement of dissolved oxygen levels in various applications. This electrode sensor, available from Conduct Science, is an essential tool for monitoring water quality and ensuring optimal conditions in research laboratories, environmental studies, and industrial processes.
Face Shields are a type of protective equipment designed to protect the face, eyes, and respiratory system from hazardous materials or substances. It typically consists of a transparent visor made of high-impact resistant materials, such as polycarbonate, that can withstand the impact of flying debris, chemicals, or other hazardous materials.
Lab safety face shields are typically used in laboratory and industrial settings where workers are exposed to hazardous chemicals, high-temperature processes, or other potential hazards. They provide an additional layer of protection in addition to other personal protective equipment, such as goggles, respirators, or gloves.
1 Pack: 100 units/box.
5 Packages: 500 units. Price per 5 packages.
ConductScience offers Face Shields.
The High-Temperature/High-Pressure Scan-MRI 150 System is a large-sized device designed for high-precision and high-resolution imaging of large objects. With its advanced HTHP (High-Temperature High-Pressure) technology, this scanner is capable of accurately measuring the energy distribution and physical properties of materials at high temperatures and pressures. This system is ideal for applications in materials science, geology, chemical engineering, and other fields that require detailed analysis of large specimens.