This is a demonstration of processing a twigs into heat-shrinkable tubes using a carbon ring heater. Please check the following site for more information.
Read More »Heat shrink tube processing of resin rods
This is a demonstration of processing a resin rod into a heat shrink tube using a carbon ring heater. Please check the following site for more information.
Read More »Heat shrink tube processing of glass tube
This is a demonstration of processing a glass tube into a heat shrinkable tube using a carbon ring heater. Please check the following site for more information.
Read More »Heat shrink tube processing of PVC pipe
This is a demonstration of processing a PVC pipe into a heat-shrinkable tube using a carbon ring heater. Please check the following site for more information.
Read More »Heat shrink tube processing of copper tube
This is a demonstration of processing a copper tube into a heat shrinkable tube using a carbon ring heater. Please check the following site for more information.
Read More »Heat shrink tube processing of aluminum pipe
This is a demonstration of processing an aluminum pipe into a heat shrinkable tube using a carbon ring heater. Please check the following site for more information.
Read More »Heat shrink tube processing of stainless steel pipe
This is a demonstration of processing a stainless steel pipe into a heat-shrinkable tube using a carbon ring heater. Please check the following site for more information.
Read More »Heat shrink tube processing of reinforcing bars
This is a demonstration of processing a reinforcing bar into a heat-shrinkable tubes using a carbon ring heater. Please check the following site for more information.
Read More »Heat shrink tube processing for electric wires
This is a demonstration of processing electric wires into a heat-shrinkable tube using a carbon ring heater. Please check the following site for more information.
Read More »Drying of after cleaning silicon wafers
This is a demonstration of drying a silicon wafer after cleaning using a carbon line heater. Please check the following site for more information.
Read More »No.13 Insulating silicon wafers in a load lock chamber
[ Problem Point ] We were looking for a circular heater that would fit the wafer. [ ⇒Kaizen Point ] We used the carbon ring heater CFRH. The size was just right. The heater space became smaller.
Read More »No.12 Connector insulation
[ Problem Point ] We were looking for a ring heater for shrink wrapping to insulate connectors. [ ⇒Kaizen Point ] We used the carbon ring heater CFRH. The absorption wavelength was compatible, so the heat shrink tube shrunk immediately. ...
Read More »No.11 Insulation of round terminals
[ Problem Point ] We were looking for a shrink ring heater to use for insulating round terminals. [ ⇒Kaizen Point ] We used the carbon ring heater CFRH. The absorption wavelength was compatible, so the heat shrink tube shrunk ...
Read More »No.10 bamboo decoration
[ Problem Point ] We were looking for a ring heater for shrink wrapping bamboo decorations. [ ⇒Kaizen Point ] We used the carbon ring heater CFRH. The absorption wavelength was compatible, so the heat shrink tube shrunk immediately. The ...
Read More »No.9 Waterproof protection for copper pipes
[ Problem Point ] We were looking for a shrink ring heater to use for waterproofing copper pipes. [ ⇒Kaizen Point ] We used a carbon ring heater CFRH. The absorption wavelength was compatible, so the heat shrink tube shrunk ...
Read More »No.8 twig decoration
[ Problem Point ] We were looking for a ring heater for shrink wrapping to use in decorating twigs. [ ⇒Kaizen Point ] We used the carbon ring heater CFRH. The absorption wavelength was compatible, so the heat shrink tube ...
Read More »No.7 Mechanical protection of resin rods
[ Problem Point ] We were looking for a ring heater for shrink wrap to use as a mechanical protection measure for resin rods. [ ⇒Kaizen Point ] We used a carbon ring heater CFRH. The absorption wavelength was compatible, ...
Read More »No.6 Waterproof protection for glass tubes
[ Problem Point ] We were looking for a shrink ring heater to use as a waterproofing measure to protect glass tubes from cracks. [ ⇒Kaizen Point ] We used a carbon ring heater CFRH. The absorption wavelength was compatible, ...
Read More »No.5 Waterproof protection for PVC pipes
[ Problem Point ] We were looking for a shrink ring heater to use for waterproofing PVC pipes. [ ⇒Kaizen Point ] We used a carbon ring heater CFRH. The absorption wavelength was compatible, so the heat shrink tube shrunk ...
Read More »No.4 Corrosion protection for aluminum pipes
[ Problem Point ] We were looking for a ring heater for shrink wrap to use as a corrosion prevention measure for aluminum pipes. [ ⇒Kaizen Point ] We used a carbon ring heater CFRH. The absorption wavelength was compatible, ...
Read More »No.3 Decorating stainless steel pipes
[ Problem Point ] We were looking for a shrink ring heater to use for decorating stainless steel pipes. [ ⇒Kaizen Point ] We used the carbon ring heater CFRH. The absorption wavelength was compatible, so the heat shrink tube ...
Read More »No.2 Rust and corrosion prevention of reinforcing bars
[ Problem Point ] We were looking for a ring heater to protect rebar. [ ⇒Kaizen Point ] We used the carbon ring heater CFRH. The absorption wavelength was compatible, so the heat shrink tube shrunk immediately. This reduced the ...
Read More »No.1 Wire bundling
[ Problem Point ] We were looking for a ring heater for wire harnesses. [ ⇒Kaizen Point ] We used the carbon ring heater CFRH. The absorption wavelength was compatible, so the heat shrink tube shrunk immediately. This reduced the ...
Read More »No.11 Heat source of drying oven
[ Problem Point ] I was looking for a small, highly efficient mid-infrared heater. [ ⇒Kaizen Point ] The material was dried by irradiating it with mid-infrared rays using a carbon line heater CFLH. The absorption wavelength was compatible, so ...
Read More »No.10 Pre-heating glass processing
[ Problem Point ] I was looking for a small far-infrared heater. [ ⇒Kaizen Point ] Heating was performed by irradiating mid-infrared rays using a carbon line heater CFLH. The absorption wavelength was suitable, so the glass heated up immediately.
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