A laboratory ball mill is versatile and essential equipment used in scientific research, quality control, and material testing in laboratories. It is designed to grind, mix, and homogenize small quantities of samples, typically in the form of powders or suspensions. Laboratory ball mills are used across various fields such as chemistry, biology, pharmaceuticals, materials science, and more.
The primary purpose of a laboratory ball mill is to conduct grinding and mixing operations to achieve desired particle size reduction or sample homogeneity. The mill consists of a cylindrical container, usually made of stainless steel or other durable materials, which contains grinding media such as balls or rods. The sample and grinding media are placed inside the container, and the mill is rotated, causing the grinding media to collide with the sample, resulting in the desired size reduction or mixing.
Laboratory ball mills offer several advantages for research and testing purposes. They allow scientists and researchers to:
Laboratory ball mills come in various configurations, including planetary ball mills, vibratory ball mills, and traditional tumbling ball mills, each offering unique features and capabilities. The choice of the specific type of laboratory ball mill depends on the nature of the sample, the desired particle size, and the specific research objectives.
In summary, ball mills are essential tools in scientific research and quality control, allowing researchers to grind, mix, and homogenize samples for various applications. They provide a controlled and reproducible environment for investigating and optimizing grinding processes, particle size reduction, and sample preparation in diverse scientific disciplines.
Features
Specifications
Specification | ||||
---|---|---|---|---|
Housing | GI Powder Coated | |||
Jar Construction | Stainless Steel 304 | |||
Power Supply | Single-phase – 220 / 230 Volts, 50 Hz | |||
Material feed size | < 20 mm | |||
Speed | 70 rpm | |||
Motor | FHP Geared Motor | |||
Grinding stations | 1 | |||
Model No | Capacity (Stainless Steel Jar ) | |||
SI - BM/1K | 1 Kg Jar | |||
SI - BM/2K | 2 Kg Jar | |||
SI - BM/5K | 5 Kg Jar | |||
SI - BM/10K | 10 Kg Jar | |||
SI - BM/20K | 20 Kg Jar | |||
SI - BM/50K | 50 Kg Jar | |||
SI - BM/100K | 100 Kg Jar |
A laboratory ball mill is versatile and essential equipment used in scientific research, quality control, and material testing in laboratories. It is designed to grind, mix, and homogenize small quantities of samples, typically in the form of powders or suspensions. Laboratory ball mills are used across various fields such as chemistry, biology, pharmaceuticals, materials science, and more.
The primary purpose of a laboratory ball mill is to conduct grinding and mixing operations to achieve desired particle size reduction or sample homogeneity. The mill consists of a cylindrical container, usually made of stainless steel or other durable materials, which contains grinding media such as balls or rods. The sample and grinding media are placed inside the container, and the mill is rotated, causing the grinding media to collide with the sample, resulting in the desired size reduction or mixing.
Laboratory ball mills offer several advantages for research and testing purposes. They allow scientists and researchers to:
Laboratory ball mills come in various configurations, including planetary ball mills, vibratory ball mills, and traditional tumbling ball mills, each offering unique features and capabilities. The choice of the specific type of laboratory ball mill depends on the nature of the sample, the desired particle size, and the specific research objectives.
In summary, ball mills are essential tools in scientific research and quality control, allowing researchers to grind, mix, and homogenize samples for various applications. They provide a controlled and reproducible environment for investigating and optimizing grinding processes, particle size reduction, and sample preparation in diverse scientific disciplines.
Features:
Specifications
Specification | ||||
---|---|---|---|---|
Housing | GI Powder Coated | |||
Jar Construction | Stainless Steel 304 | |||
Power Supply | Single-phase – 220 / 230 Volts, 50 Hz | |||
Material feed size | < 20 mm | |||
Speed | 70 rpm | |||
Motor | FHP Geared Motor | |||
Grinding stations | 1 | |||
Model No | Capacity (Stainless Steel Jar ) | |||
SI - BM/1K | 1 Kg Jar | |||
SI - BM/2K | 2 Kg Jar | |||
SI - BM/5K | 5 Kg Jar | |||
SI - BM/10K | 10 Kg Jar | |||
SI - BM/20K | 20 Kg Jar | |||
SI - BM/50K | 50 Kg Jar | |||
SI - BM/100K | 100 Kg Jar |
Samara Instruments is a trusted source for cutting-edge scientific equipment. We specialize in providing high-quality instruments and solutions for researchers, laboratories, and scientific professionals worldwide. With 8 years of industry experience, we are committed to delivering innovative products that empower scientific discovery and advancement.
A laboratory ball mill is versatile and essential equipment used in scientific research, quality control, and material testing in laboratories. It is designed to grind, mix, and homogenize small quantities of samples, typically in the form of powders or suspensions. Laboratory ball mills are used across various fields such as chemistry, biology, pharmaceuticals, materials science, and more.
The primary purpose of a laboratory ball mill is to conduct grinding and mixing operations to achieve desired particle size reduction or sample homogeneity. The mill consists of a cylindrical container, usually made of stainless steel or other durable materials, which contains grinding media such as balls or rods. The sample and grinding media are placed inside the container, and the mill is rotated, causing the grinding media to collide with the sample, resulting in the desired size reduction or mixing.
Laboratory ball mills offer several advantages for research and testing purposes. They allow scientists and researchers to:
Laboratory ball mills come in various configurations, including planetary ball mills, vibratory ball mills, and traditional tumbling ball mills, each offering unique features and capabilities. The choice of the specific type of laboratory ball mill depends on the nature of the sample, the desired particle size, and the specific research objectives.
In summary, ball mills are essential tools in scientific research and quality control, allowing researchers to grind, mix, and homogenize samples for various applications. They provide a controlled and reproducible environment for investigating and optimizing grinding processes, particle size reduction, and sample preparation in diverse scientific disciplines.
Specification | ||||
---|---|---|---|---|
Housing | GI Powder Coated | |||
Jar Construction | Stainless Steel 304 | |||
Power Supply | Single-phase – 220 / 230 Volts, 50 Hz | |||
Material feed size | < 20 mm | |||
Speed | 70 rpm | |||
Motor | FHP Geared Motor | |||
Grinding stations | 1 | |||
Model No | Capacity (Stainless Steel Jar ) | |||
SI - BM/1K | 1 Kg Jar | |||
SI - BM/2K | 2 Kg Jar | |||
SI - BM/5K | 5 Kg Jar | |||
SI - BM/10K | 10 Kg Jar | |||
SI - BM/20K | 20 Kg Jar | |||
SI - BM/50K | 50 Kg Jar | |||
SI - BM/100K | 100 Kg Jar |