The NJbinglab PFA Vial Cleaning System offers numerous advantages that make it a preferred choice for laboratories and research facilities. Here are some of the key benefits of this system:
Advantages:
1.High Efficiency: The NJbinglab Vial Cleaning System is designed to clean a large number of vials quickly and efficiently. This helps save time and resources, enabling laboratories to focus on more important tasks.
2.Excellent Cleaning Quality: The system ensures thorough and consistent cleaning of vials, removing even the toughest residues and contaminants. This ensures that vials are ready for use without any risk of cross-contamination.
3.Automated Operation: The NJbinglab Vial Cleaning System offers an automated process that reduces the need for manual handling. This not only saves time but also minimizes the risk of human error and contamination.
4.Flexibility: The system can be customized to accommodate different sizes and types of vials, making it a versatile solution for various applications.
5.Safe Operation: Safety is a top priority in the NJbinglab Vial Cleaning System. It incorporates features such as enclosed cleaning chambers to minimize exposure to hazardous chemicals.
6.Eco-Friendly: The system uses efficient water and chemical consumption, minimizing waste and reducing the impact on the environment.
7.Cost-Effective: While the initial investment in the NJbinglab Vial Cleaning System may be higher than traditional manual cleaning methods, the long-term savings in terms of time, labor, and consumables make it a cost-effective solution.
8.Compliance with Standards: The NJbinglab Vial Cleaning System is designed to meet or exceed industry standards for cleanliness and contamination control, ensuring compliance with regulatory requirements.
In summary, the NJbinglab Vial Cleaning System offers a comprehensive solution for efficient, safe, and cost-effective vial cleaning, making it an invaluable asset for laboratories and research facilities.
The NJbinglab Vial Cleaning System offers numerous advantages that make it a preferred choice for laboratories and research facilities. Here are some of the key benefits of this system: Advantages: 1.High Efficiency: The NJbinglab Vial Cleaning System is designed to clean a large number of vials quickly and efficiently. This helps save time and resources, enabling laboratories to focus on more important tasks. 2.Excellent Cleaning Quality: The system ensures thorough and consistent cleaning of vials, removing even the toughest residues and contaminants. This ensures that vials are ready for use without any risk of cross-contamination. 3.Automated Operation: The NJbinglab Vial Cleaning System offers an automated process that reduces the need for manual handling. This not only saves time but also minimizes the risk of human error and contamination. 4.Flexibility: The system can be customized to accommodate different sizes and types of vials, making it a versatile solution for various applications. Safe Operation: Safety is a top priority in the NJbinglab Vial Cleaning System. It 5.incorporates features such as enclosed cleaning chambers to minimize exposure to hazardous chemicals. 6.Eco-Friendly: The system uses efficient water and chemical consumption, minimizing waste and reducing the impact on the environment. 7.Cost-Effective: While the initial investment in the NJbinglab Vial Cleaning System may be higher than traditional manual cleaning methods, the long-term savings in terms of time, labor, and consumables make it a cost-effective solution. 8.Compliance with Standards: The NJbinglab Vial Cleaning System is designed to meet or exceed industry standards for cleanliness and contamination control, ensuring compliance with regulatory requirements. In summary, the NJbinglab Vial Cleaning System offers a comprehensive solution for efficient, safe, and cost-effective vial cleaning, making it an invaluable asset for laboratories and research facilities.
Product Features: 1. PFA material (translucent) 2. High and low temperature resistance: -200C to 260C 3. Strong acid and alkali resistance, high temperature resistance 4. No dissolution and precipitation, no contamination of samples 5. The principle of sub-boiling distillation and heat radiation. 6. Innovative advantages: Timed and segmented temperature control, annular heating jacket, liquid level gauge, pagoda-shaped condensation chamber Product Specifications: 500ml/1/2/4/5/6L
1. Product introduction The PFA cleaning tank is an upgraded model after the PTFE cleaning bucket. It is specially designed for semiconductor photovoltaic and other industries. It is formed in one piece, so there is no need to worry about leakage. Mainly used for soaking and cleaning flower baskets or wafer cassettes with chip silicon cells. Due to the characteristics of PFA, it can withstand the corrosiveness of cleaning solutions. At the same time, it has a low blank value of metal elements, no dissolution or precipitation, and will not contaminate chip wafers. Other names: anti-corrosion tank, pickling tank, overflow tank, pure water tank, soaking tank, water tank, drip tank Tank capacity: 15L External dimensions: 300*210*240mm Lid: 340*240*45mm Tank capacity: 18L External dimensions: 390*280*205mm Lid: 400*300*42mm Semiconductor wafer cleaning tank size can be customized as required. It also comes with the same PFA lid to prevent contamination. 2. Features: 1. The appearance is translucent, making it easy to observe the reagents in the tank; 2. High and low temperature resistance: -200ï½?+260â?? 3. Corrosion resistance: resistant to strong acid, strong alkali, aqua regia, HF and various organic solvents; 4. Insulation resistance: dielectric properties have nothing to do with temperature and frequency; 5. Anti-pollution: The background value is low, and the content of lead and uranium of metal elements is less than 0.01ppb; 6. No dissolution or precipitation, and will not pollute chips, wafers, silicon wafers, etc.; 8. Stable chemical properties, good recoverability, and not easy to deform; 9. Teflon plastic, durable and not fragile.
PFA cleaning tank is a container used for soaking and cleaning semiconductor wafers and chip flower baskets, and can also be used for soaking and cleaning of trace analysis laboratory PTFE containers (such as microwave digestion tanks, reagent bottles, beakers, crucibles, etc.). The design of integrated molding can avoid liquid leakage. The PFA cover can prevent dust pollution. The PFA cleaning tank size can be customized to meet different experimental needs. #labwarecleaning #cleaningtank #semiconductor #wafercleaning #traceanalysis
The cover and body are made of high-purity imported PFA material and do not contain other impurities. Resistant to strong acids and alkalis, the utensils can be put into a cleaning tank and soaked in acid for cleaning. #acidcleaning #teflon #labware #icpms
PFA purification system: 1. Product introduction: Acid purifier: also known as acid purification system, high-purity acid purifier, acid reagent purifier, high-purity acid distillation purifier, etc. In laboratory work, the purity of the acid is often poor, causing deviations and errors in the analysis results. Commercially available pure acids are often expensive and difficult to meet the large demand for acids in daily analyses. Therefore, purifying and optimizing the quality of acid is an economically feasible way. Our acid purifier can be used in laboratories to purify HNO3, HCl, HF, alkali solutions and organic solvents. After purification, the purity of the acid is further improved. Later in the experiment, our unit's Teflon series reagent bottles can be used to collect high-purity acid. 2. Working principle: The acid purifier uses the principle of thermal radiation to keep the liquid temperature below the boiling point to evaporate, and then condenses the acid vapor to prepare high-purity water and high-purity reagents. It is widely used in sample processing and analysis experiments. 3. Product features: 1. It can meet the low detection limit requirements of ICP and ICP-MS and provide laboratory-grade ultrapure acid for demanding analysis applications. All containers used are made of Teflon corrosion-resistant non-adsorption plastic and can handle laboratories such as HNO3, HCl, HF, etc. Commonly used acids. 2. Experiments have proven that after a single distillation of an acid with a metal impurity content of about 10 ppb, the metal impurity content can be reduced to about 0.01 ppb. If the acid requirements are higher, the purification times can be increased.
Pass box is used to transfer the material from lower cleanliness area to higher cleanliness area or vice-versa in the classified area and also known as the hatch. Pass box works as a barrier between two cleanliness level areas. A pass box, which is also called a transfer hatch or SAS pass (sterile access system), Static pass boxes are used to transfer materials between two rooms of equal cleanliness levels and are designed for minimal personnel movement while dynamic pass boxes are used to transfer materials from uncontrolled to controlled environments. Dynamic pass box works like an airlock or laminar air flow unit. We design and manufacture static and dynamic Pass Box and other clean room environment furniture as per the design and specification of our clients
PFA purification system: 1. Product introduction: Acid purifier: also known as acid purification system, high-purity acid purifier, acid reagent purifier, high-purity acid distillation purifier, etc. In laboratory work, the purity of the acid is often poor, causing deviations and errors in the analysis results. Commercially available pure acids are often expensive and difficult to meet the large demand for acids in daily analyses. Therefore, purifying and optimizing the quality of acid is an economically feasible way. Our acid purifier can be used in laboratories to purify HNO3, HCl, HF, alkali solutions and organic solvents. After purification, the purity of the acid is further improved. Later in the experiment, our unit's Teflon series reagent bottles can be used to collect high-purity acid. 2. Working principle: The acid purifier uses the principle of thermal radiation to keep the liquid temperature below the boiling point to evaporate, and then condenses the acid vapor to prepare high-purity water and high-purity reagents. It is widely used in sample processing and analysis experiments. 3. Product features: 1. It can meet the low detection limit requirements of ICP and ICP-MS and provide laboratory-grade ultrapure acid for demanding analysis applications. All containers used are made of Teflon corrosion-resistant non-adsorption plastic and can handle laboratories such as HNO3, HCl, HF, etc. Commonly used acids. 2. Experiments have proven that after a single distillation of an acid with a metal impurity content of about 10 ppb, the metal impurity content can be reduced to about 0.01 ppb. If the acid requirements are higher, the purification times can be increased.
PFA acid purification system: 1. Product introduction: Acid purifier: also known as acid purification system, high-purity acid purifier, acid reagent purifier, high-purity acid distillation purifier, etc. In laboratory work, the purity of the acid is often poor, causing deviations and errors in the analysis results. Commercially available pure acids are often expensive and difficult to meet the large demand for acids in daily analyses. Therefore, purifying and optimizing the quality of acid is an economically feasible way. Our acid purifier can be used in laboratories to purify HNO3, HCl, HF, alkali solutions and organic solvents. After purification, the purity of the acid is further improved. Later in the experiment, our unit's Teflon series reagent bottles can be used to collect high-purity acid. 2. Working principle: The acid purifier uses the principle of thermal radiation to keep the liquid temperature below the boiling point to evaporate, and then condenses the acid vapor to prepare high-purity water and high-purity reagents. It is widely used in sample processing and analysis experiments. 3. Product features: 1. It can meet the low detection limit requirements of ICP and ICP-MS and provide laboratory-grade ultrapure acid for demanding analysis applications. All containers used are made of Teflon corrosion-resistant non-adsorption plastic and can handle laboratories such as HNO3, HCl, HF, etc. Commonly used acids. 2. Experiments have proven that after a single distillation of an acid with a metal impurity content of about 10 ppb, the metal impurity content can be reduced to about 0.01 ppb. If the acid requirements are higher, the purification times can be increased.
