2026 Strategic Tech: Based on the thermodynamic latent heat model, integrated with Mass Flow Monitoring, empowering high-end manufacturing with absolute temperature stability.
Base Param: 4 kW / 50 kg Load
Physics: Larger mold weight (thermal capacity) requires longer heating time. Under high-load conditions, IHss maintains a high latent heat exchange rate, significantly shortening the preheating cycle that traditional water controllers struggle to overcome.
Traditional TCU systems rely on Sensible Heat Exchange. To increase energy output, they must forcibly increase circulation volume, leading to violent pressure fluctuations in the mold channels and restricted by the physical thermal resistance boundary of liquids.
The 2026 IHss PCTM system shifts to Phase-Change Latent Heat mode. Carrying 485.4 kcal of energy per kg of steam, it achieves higher frequency and more stable thermal injection using only 1/40th of the mass flow rate of traditional systems.
We deliver not just precise temperatures, but Geometric Dimensional Stability. When temperature control precision enters the ±0.01°C zone, mold thermal displacement fluctuations are suppressed to the sub-nanometer level.
We invite partners to co-develop flagship models for 2026 in optics, semiconductors, and high-end automotive precision parts. Leverage IHss PCTM technology to build a formidable competitive moat and command a premium in the high-end manufacturing market.