Beaker, Graduated Glass Type 1, Dual Scale, 600 mL

Beaker, Graduated Glass Type 1, Dual Scale, 600 mL

This beaker meets ASTM E-960 Type I Specifications for classification, design, capacity & dimensions, and markings. This beaker is used to hold and sometimes measure liquids. It is also used to stir, mix and heat liquids and it is made from high-quality borosilicate glass with a low coefficient of expansion.

Frequently Bought Together

Cylinder, Graduated Glass Type 1 Class A, Single Scale, 25 mL

Cylinder, Graduated Glass Type 1 Class A, Single Scale, 25 mL

Pack Size:
EA
Beaker, Graduated Glass, Dual Scale, Heavy Duty, 1000 mL

Beaker, Graduated Glass, Dual Scale, Heavy Duty, 1000 mL

Pack Size:
EA
Beaker, Graduated Glass Type 1, Dual Scale, 400 mL

Beaker, Graduated Glass Type 1, Dual Scale, 400 mL

Pack Size:
EA
Cylinder, Graduated Glass Type 1 Class B, Dual Scale, 250 mL

Cylinder, Graduated Glass Type 1 Class B, Dual Scale, 250 mL

Pack Size:
EA
LevGo® SmartSpatula, 310 mm

LevGo® SmartSpatula, 310 mm

Pack Size:
PK/150
Beaker, Graduated Glass Type 1, Dual Scale, 250 mL

Beaker, Graduated Glass Type 1, Dual Scale, 250 mL

Pack Size:
EA
MD® Actuator

MD® Actuator

Actuation:
0.5 mL
Beaker, Graduated Glass Type 1, Dual Scale, 30 mL

Beaker, Graduated Glass Type 1, Dual Scale, 30 mL

Pack Size:
EA
Betamethasone Sodium Phosphate USP

Betamethasone Sodium Phosphate USP

Pack Size:
1 g
Isopropyl Myristate NF

Isopropyl Myristate NF

Pack Size:
1 L
FlavoRx Sweetening Enhancer

FlavoRx Sweetening Enhancer

Pack Size:
4 oz
Glass Beaker, 150 mL

Glass Beaker, 150 mL

Pack Size:
EA
Beaker, Graduated Glass Type 1, Dual Scale, 100 mL

Beaker, Graduated Glass Type 1, Dual Scale, 100 mL

Pack Size:
EA
Mortar and Pestle, Flint Glass, 16 oz

Mortar and Pestle, Flint Glass, 16 oz

Pack Size:
EA
Bouffant Cap, Pleated

Bouffant Cap, Pleated

Pack Size:
PK/100
Mupirocin, USP

Mupirocin, USP

Pack Size:
1 g
  • Easy-pour sprout
  • White, permanent graduations
  • Large marking squares
  • Manufactured with uniform wall thickness resulting in the optimum balance between thermal shock resistance mechanical strength