Epoxy Curing
Catheter Tipping
Curing Thread Sealant
Epoxy Curing
Magneforce Induction
Curing & Bonding
Why Magneforce Induction For Curing & Bonding
Induction Advantages For Curing & Bonding
Control setup For evenly heating 2
metal plates to be rubber coated
Catheter Tipping & Bonding
Catheter tipping & bonding molds are heated quickly and consistently cycle to cycle. Air cooled systems are available for easy setup. Precise heat control and heating and temperature data logging help insure part quality.
A metal strip is heated to bond
plastic tubing in a catheter process
Guaranteed Results
We guarantee that the heating of your part will be as specified and will be repeatable. No system will be shipped until it meets your requirements.
No Charge Sample Processing
We will process your sample parts and return them to you for evaluation. All process parameters including heating power, heating time and temperature. Setup pictures and/or videos will also be included.
Custom Heating Coil Manufaturing
Even heating is required for curing and bonding processes. Proper heating coil design is essential for even heating.
We manufacture all heating coils in house, enabling rapid prototypes and the ability to refine the coil design and focus heating as required.
Fixtured heating coils imbedded
in phenolic for heating metal plates
Made In The USA
All Magneforce induction heating systems for brazing are manufactured at our facility in Warren, Ohio.
Turnkey Systems
We can supply basic, cost effective process fixtures and part nests to complete your process or complete systems ready to run .
Focused, Non-Contact Heating For Adhesive Curing
Monitor And Hold Temperature
A double head coil is inserted
into pipe connections on a water
meter housing to cure adhesive
When using induction for curing, the heat can be focused directly on the areas that need it. Heating is non-contact and flameless so there is no burning or contaminating of the adhesive or epoxy.
Many adhesives and epoxies require a cure cycle. With Magneforce TS induction heaters, temperature profiles can be setup to bring the part to temperature at the desired rate and then hold it at temperature or the duration of the cure cycle.
The housing for a solenoid motor
is heated to recommended profile
to cure epoxy securing internal ferrites
Evenly Heat Surfaces For Rubber Coating
When preheating metal parts for rubber bonding, all surfaces to covered must be at the correct temperature. A properly designed induction coil and
heater setup assures consistent
even heating of the part.
A metal plate is covered with
temperature indicating paint
to test eveness of heating
3 steel parts are heated simultaneously and held at temperature for robotic placement in a rubber molding machine. The part layout matches the pickup head of the robot.
This specialty heating head is used to bond the
slit in foam tubing used to insulate water tubing.
Heavy metal castings of army vehicle treads are evenly heated and held at temperature for a rubber coating process.
Induction heating is widely used for adhesive curing, epoxy curing, catheter tipping and bonding and preheat of metal parts for rubber coating. Heating is clean, flameless and repeatable. With proper heating coil design and system setup, parts can be evenly heated to insure proper coating. Focused, non-contact electromagnetic
heating maintains clean parts and prevents burning or contamination of the adhesive or epoxy. Precise power control provides consistent heating for critical medical applications like catheter tipping & bonding. The ability to monitor and record power and temperature data help insure product quality.