Borosilicate Glass Capillary Melting Tubes are 4" in length and have a 0.05" outer diameter capillary tubes that are particularly useful for determining the melting point of various substances. The 100 capillary tubes come in a cylindrical container that has a hole in the lid for easily obtaining one tube at a time.
- 100 PRECISION GLASS CAPILLARY TUBES || Includes 100 borosilicate glass melting tubes, each 4" long with a 0.05" outer diameter, designed for consistent and accurate melting point determination.
- EASY DISPENSING CONTAINER || Packaged in a convenient container with a dispensing lid that releases one tube at a time, ensuring easy access and simplifying storage.
- IDEAL FOR MELTING POINT TESTS || Perfect for precise melting point measurements in professional laboratories, research facilities, and educational institutions, enhancing accuracy and reliability.
- DURABLE & CHEMICAL RESISTANT || Made from premium borosilicate glass, offering exceptional chemical resistance and durability, suitable for a wide range of laboratory applications.
- HEAT & THERMAL SHOCK RESISTANT || Engineered to withstand high temperatures and thermal shocks with a strain point of 515°C, annealing point of 565°C, and softening point of 820°C.
- 100 PRECISION GLASS CAPILLARY TUBES || Includes 100 borosilicate glass melting tubes, each 4" long with a 0.05" outer diameter, designed for consistent and accurate melting point determination.
- EASY DISPENSING CONTAINER || Packaged in a convenient container with a dispensing lid that releases one tube at a time, ensuring easy access and simplifying storage.
- IDEAL FOR MELTING POINT TESTS || Perfect for precise melting point measurements in professional laboratories, research facilities, and educational institutions, enhancing accuracy and reliability.
- DURABLE & CHEMICAL RESISTANT || Made from premium borosilicate glass, offering exceptional chemical resistance and durability, suitable for a wide range of laboratory applications.
- HEAT & THERMAL SHOCK RESISTANT || Engineered to withstand high temperatures and thermal shocks with a strain point of 515°C, annealing point of 565°C, and softening point of 820°C.
