Test
Protect personnel from waste material containing beta-emitting isotopes.
The Original Locking Container for Radioactive Materials, The Rad-Lock Box container increases security for storage of radioactive materials in the laboratory. Constructed of thick, heavy duty acrylic with a built-in cylinder key lock and tamper resistant hinges. Rad-Lock Box containers limit and control access to only authorized individuals. Rad-3 Lock Box can accommodate a five gallon carboy(sold separately) or contaminated items such as gloves, tips, tubes and glassware. Optional casters are also available (sold separately) for ease of use and movement throughout the lab.
Radioactive material waste bags are available in a variety of convenient sizes and styles to help sort and identify different types of waste. Strong, bottom-sealed waste liners are free of heavy metals, making them safe for landfill or incineration.
Heavy duty corrugated radioactive waste boxes have a radiation and caution warning symbols imprinted on the boxes. These can be used individually or with a Rad-4 Lock Box for a complete shielding waste system. Boxes ship flat to prevent damage and need to be folded into final shape before use.
Poly liners, for use with floor model rad-lock boxes, have the radiation symbol imprint and caution warning.
Nalgene Benchtop Radioactive Waste Containers are cylindrical shields and lids that securely hold included 2 L polyethylene fluid waste bottle. A lip on the lid prevents slipping. Maximum beta radiation containment is possible with 3/8 inch acrylic. Note: This radioactive waste container includes a 2L wide-mouth HDPE bottle (EF14767A). Replacements for this bottle can be purchased below, within the "Accessories" tab. Key Features •3/8-inch acrylic •Maximum containment •Lip on the lid prevents slipping
Radioactive material waste bags help sort and identify different types of waste. Strong, bottom-sealed waste liners are free of heavy metals, making them safe for landfill or incineration.
IBI’s BETA-GARD™ waste containers are designed for radioactive waste or any other laboratory waste that requires containment. These safe storage containers may be used with disposable NRC-approved waste bags. There are four (4) stationary waste containers available in convenient sizes with hinged lids, and one (1) large mobile waste container with heavy duty casters and a large handle for easy mobility in your lab. All BETA-GARD™ waste containers are constructed of heavy duty 1/2” cast acrylic for maximum protection of laboratory personnel.
IBI’s BETA-GARD™ waste containers are designed for radioactive waste or any other laboratory waste that requires containment. These safe storage containers may be used with disposable NRC-approved waste bags. There are four (4) stationary waste containers available in convenient sizes with hinged lids, and one (1) large mobile waste container with heavy duty casters and a large handle for easy mobility in your lab. All BETA-GARD™ waste containers are constructed of heavy duty 1/2” cast acrylic for maximum protection of laboratory personnel.
Radioactive material waste bags help sort and identify different types of waste. Strong, bottom-sealed waste liners are free of heavy metals, making them safe for landfill or incineration.
Radioactive material waste bags are available in a variety of convenient sizes and styles to help sort and identify different types of waste. Strong, bottom-sealed waste liners are free of heavy metals, making them safe for landfill or incineration.
Radioactive material waste bags are available in a variety of convenient sizes and styles to help sort and identify different types of waste. Strong, bottom-sealed waste liners are free of heavy metals, making them safe for landfill or incineration.
Heat Sealable Polyethylene Bags are transparent and specially designed for use in all hybridization applications. These bags are especially useful as specimen bags or for product storage. Bags are heavy duty and are 4 mil thick. Ideal for quickly sealing solutions with a bag sealer that is also available from RPI.