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A 3,000 CFM, 3-HP alloy recirculating blower provides horizontal airflow to the oven, while a 325 CFM cooling blower pulls room air through the air jacket on the inner oven for additional cooling.
The model number 799 is an electrically heated 1,382°F (750°C) inert atmosphere cabinet oven from Grieve that is reportedly used for processing ceramic components prior to assembly.
The walk-in oven features 4-in. insulated walls, aluminized steel interior and exterior, and a 2-in. insulated floor with integral truck wheel guide tracks for easier loading and unloading.
The model number 850 is a 500°F, electrically heated walk-in oven from Grieve that is currently being used for curing composite parts at a customer’s facility.
This Grieve conveyor oven features 4-in. insulated walls, aluminized steel exterior and type 304, 2B finish stainless steel interior, three independent doors for access to the workspace, and three 325 CFM powered forced exhausters.
The no. 1018 is an electrically heated, 500°F (~260°C), three-zone belt conveyor oven from Grieve Corp. that is currently used for drying ceramic parts.
Many processed materials need to be thermally dried under controlled conditions. Most drying is done in open atmosphere or oxidizing ovens in batch, continuous belt, or tunnel feed styles. However, certain materials require protection from oxygen or other atmospheric contaminants during or after drying.
In the U.S., the main body developing the design standards of kilns, furnaces and ovens is the National Fire Protection Association (NFPA), through NFPA 86 Standard for Ovens and Furnaces. But the ceramic industry has misconceptions about NFPA 86, and no wonder.
Months or even years of planning have gone into buying your company’s new thermal processing equipment. The executives have cut ribbons and pictures have been taken. Now the countdown begins; degradation starts as soon as the installation is complete and the equipment is turned on. The equipment is heading toward its first failure.