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Far-infrared energy-saving material for saving oil of oil conveying pipe and manufacturing method thereof
The invention discloses a far-infrared energy-saving material for oil saving of an oil conveying pipe and a manufacturing method thereof. The far-infrared energy-saving material comprises the following components in parts by weight: 30-40% of thermoplastic elastomer powder, 40-55% of far-infrared ceramic powder and 8-15% of kaolin. The far-infrared ceramic powder and kaolin are wrapped after thermoplastic elastomer powder is melted into colloid at a high temperature. The manufacturing method comprises the following steps: firstly, uniformly mixing the far-infrared ceramic powder and kaolin according to the formula in a mixer; then adding thermoplastic elastomer powder and mixed far infrared ceramic powder and kaolin into a granulator according to the formula, then heating, extruding, and melting the mixture to obtain colloidal particles by a granulator, and then moulding the colloidal particles by an injection moulding facility to obtain the far-infrared energy-saving material. The far-infrared energy-saving material can release enough far-infrared radiation and can be well applied to oil delivery pipes of gasoline engines such as automobiles and motorcycles.
本发明公开了一种用于输油管节油的远红外节能材料及其制造方法,远红外节能材料包括以下重量份组份:热塑弹性体粉末30‑40%、远红外陶瓷粉40‑55%,以及高岭土8‑15%;所述远红外陶瓷粉和高岭土,由热塑弹性体粉末高温熔成胶质后进行包裹。制造方法包括以下步骤:首先按重量份将远红外陶瓷粉和高岭土在混料机中均匀混合;之后在造粒机中按重量份加入热塑弹性体粉末和混合后的远红外陶瓷粉和高岭土混合,之后通过造粒机设备加热挤出融合成胶质颗粒,之后通过注塑成型设备成型为所述的红外节能材料。本发明的远红外节能材料,能够释放足量的远红外线辐射,能够很好的应用于汽车、摩托车等汽油发动机的输油管上。
Far-infrared energy-saving material for saving oil of oil conveying pipe and manufacturing method thereof
The invention discloses a far-infrared energy-saving material for oil saving of an oil conveying pipe and a manufacturing method thereof. The far-infrared energy-saving material comprises the following components in parts by weight: 30-40% of thermoplastic elastomer powder, 40-55% of far-infrared ceramic powder and 8-15% of kaolin. The far-infrared ceramic powder and kaolin are wrapped after thermoplastic elastomer powder is melted into colloid at a high temperature. The manufacturing method comprises the following steps: firstly, uniformly mixing the far-infrared ceramic powder and kaolin according to the formula in a mixer; then adding thermoplastic elastomer powder and mixed far infrared ceramic powder and kaolin into a granulator according to the formula, then heating, extruding, and melting the mixture to obtain colloidal particles by a granulator, and then moulding the colloidal particles by an injection moulding facility to obtain the far-infrared energy-saving material. The far-infrared energy-saving material can release enough far-infrared radiation and can be well applied to oil delivery pipes of gasoline engines such as automobiles and motorcycles.
本发明公开了一种用于输油管节油的远红外节能材料及其制造方法,远红外节能材料包括以下重量份组份:热塑弹性体粉末30‑40%、远红外陶瓷粉40‑55%,以及高岭土8‑15%;所述远红外陶瓷粉和高岭土,由热塑弹性体粉末高温熔成胶质后进行包裹。制造方法包括以下步骤:首先按重量份将远红外陶瓷粉和高岭土在混料机中均匀混合;之后在造粒机中按重量份加入热塑弹性体粉末和混合后的远红外陶瓷粉和高岭土混合,之后通过造粒机设备加热挤出融合成胶质颗粒,之后通过注塑成型设备成型为所述的红外节能材料。本发明的远红外节能材料,能够释放足量的远红外线辐射,能够很好的应用于汽车、摩托车等汽油发动机的输油管上。
Far-infrared energy-saving material for saving oil of oil conveying pipe and manufacturing method thereof
一种用于输油管节油的远红外节能材料及其制造方法
CHENG RULIN (author) / WEI MINGKANG (author)
2020-07-03
Patent
Electronic Resource
Chinese
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