The Retsch 697200025 Collecting Pan is a durable and high-quality stainless steel pan designed for laboratory use. With a diameter of 200 mm and a height of 25 mm, this collecting pan offers ample space for collecting samples, making it an essential tool for various scientific experiments and research.
Crafted from premium stainless steel, this collecting pan is built to withstand the rigors of everyday laboratory use. The stainless steel material not only ensures its longevity but also makes it resistant to corrosion and stains. This feature makes it easy to clean and maintain, enhancing its overall durability and usability.
The 200 mm diameter of the pan provides a generous surface area for collecting samples, enabling researchers to conduct experiments efficiently without worrying about spillage or overflow. The 25 mm height adds to its versatility as it can accommodate a significant amount of material, allowing users to collect and analyze larger samples effectively.
Versatility is a key aspect of the Retsch 697200025 Collecting Pan. It can be used in a wide range of scientific applications, including mineral beneficiation, soil analysis, food testing, and pharmaceutical research. Its robust design and construction make it suitable for handling various substances, guaranteeing accurate and reliable results in any laboratory setting.
The collecting pan's seamless finish ensures that there are no crevices or edges where substances can accumulate, eliminating the risk of contamination or cross-contamination. Additionally, its stainless steel construction resists chemical reactions, ensuring the purity of the collected samples.
Designed with the user in mind, the Retsch 697200025 Collecting Pan features a lightweight and ergonomic design, making it easy to handle and maneuver. Its sturdy construction provides stability when placed on any surface, allowing for a steady and controlled collection process.
In conclusion, the Retsch 697200025 Collecting Pan is a durable, versatile, and efficient laboratory tool. With its stainless steel construction, generous size, and user-friendly design, it is sure to enhance productivity and accuracy in any scientific research or experimentation environment.
Crafted from premium stainless steel, this collecting pan is built to withstand the rigors of everyday laboratory use. The stainless steel material not only ensures its longevity but also makes it resistant to corrosion and stains. This feature makes it easy to clean and maintain, enhancing its overall durability and usability.
The 200 mm diameter of the pan provides a generous surface area for collecting samples, enabling researchers to conduct experiments efficiently without worrying about spillage or overflow. The 25 mm height adds to its versatility as it can accommodate a significant amount of material, allowing users to collect and analyze larger samples effectively.
Versatility is a key aspect of the Retsch 697200025 Collecting Pan. It can be used in a wide range of scientific applications, including mineral beneficiation, soil analysis, food testing, and pharmaceutical research. Its robust design and construction make it suitable for handling various substances, guaranteeing accurate and reliable results in any laboratory setting.
The collecting pan's seamless finish ensures that there are no crevices or edges where substances can accumulate, eliminating the risk of contamination or cross-contamination. Additionally, its stainless steel construction resists chemical reactions, ensuring the purity of the collected samples.
Designed with the user in mind, the Retsch 697200025 Collecting Pan features a lightweight and ergonomic design, making it easy to handle and maneuver. Its sturdy construction provides stability when placed on any surface, allowing for a steady and controlled collection process.
In conclusion, the Retsch 697200025 Collecting Pan is a durable, versatile, and efficient laboratory tool. With its stainless steel construction, generous size, and user-friendly design, it is sure to enhance productivity and accuracy in any scientific research or experimentation environment.