Applications Of Mold Temperature Controllers

- Jul 23, 2019-

With the development of the mold temperature machine technology, the mold temperature controller has been applied in many fields:

Petroleum and chemical industries: polymerization, condensation, distillation, melting, dehydration, forced the insulation

Oil industry: fatty acid distillation, oil decomposition, concentration, esterification, vacuum deodorization

Synthetic fiber industry: polymerization, melting, spinning, stretching, drying

Textile printing and dyeing work: heat setting, drying, heat capacity dyeing

Non-woven industry: non-woven fabric

Feed industry: drying

Plastics and rubber industry: hot pressing, calendaring, extrusion, vulcanization molding

Paper industry: drying, corrugated paper processing

Timber industry: plywood, fiberboard compression molding, wood drying

Building materials work: gypsum board drying, asphalt heating, concrete component maintenance

Machinery industry: painting, printing, and drying

Food industry: baking, heating

Air conditioning industry: industrial plant and civil building heating

Road construction industry: asphalt melting, insulation

Pharmaceutical industry: drying

Light industry: production of ink, washing powder

The function of the mold temperature controller for injection molding machine

The purpose of controlling the mold temperature and the influence of the mold temperature on the injection molded part In the injection molding process.

The main purpose of controlling the mold temperature is to heat the mold to the working temperature, and the second is to keep the mold temperature constant at the working temperature.

If the above two points are successful, the cycle time can be optimized to ensure the high quality of the injection molded parts.

Mold temperature affects surface quality, fluidity, shrinkage, injection cycle, and deformation.

Excessive or insufficient mold temperature can have different effects on different materials. For thermoplastics, higher mold temperatures generally improve the surface quality and flow.

But extend the cooling time and injection cycle times. A lower mold temperature will reduce the shrinkage in the mold but will increase the shrinkage of the molded part after demolding.