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A platform for research: civil engineering, architecture and urbanism
Carbon nanometer heat-conducting composite floor with high wear resistance and scratch resistance
The invention belongs to the technical field of floors, and particularly relates to a carbon nanometer heat-conducting composite floor with high wear resistance and scratch resistance. The carbon nanometer heat-conducting composite floor with high wear resistance and scratch resistance comprises a main support layer formed by composite materials and is of a strip-shaped plate structure; carbon nanometer heat-conducting composite layers are uniformly arranged on six surfaces of the outer part of the strip-shaped plate structure; and outer wrapping layers formed by composite materials are uniformly arranged on the other five surfaces of the outer parts of the carbon nanometer heat-conducting composite layers except for the bottom surface. The nanometer heat-conducting composite floor with high wear resistance and scratch resistance overcomes the defects of the prior art, the inner wrapping main support layer is formed by utilizing the materials such as carbon nanometer and polyvinyl chloride resin, then the outer wrapping layers are arranged on the five surfaces of the outer parts of the carbon nanometer heat-conducting composite layers, the bottom parts of the outer wrapping layersare opened, and heat energy favorably contacts the carbon nanometer heat-conducting composite layers, is then transmitted to other parts and is finally emitted through the outer wrapping layers instead of passing through the main support layer, so that the heat-conducting speed and a heat-conducting effect are greatly improved, and the carbon nanometer heat-conducting composite floor with high wear resistance and scratch resistance is energy-saving, environmental-friendly and broad in application range.
本发明属于地板技术领域,具体涉及一种高耐磨耐刮擦碳纳米导热复合地板,包括复合材料构成的主支撑层,主支撑层为条形板结构,条形板结构外部六个面均匀的设有碳纳米导热复合层,碳纳米导热复合层外部除底面的其他五个面均匀的设有由复合材料构成的外部包裹层,克服了现有技术的不足,利用碳纳米和聚氯乙烯树脂等材质构成里面包裹的主支撑层,然后在碳纳米导热复合层外部五个面设置外部包裹层,外部包裹层底部开放更利于热能与碳纳米导热复合层接触,然后传递到其他部位,最后通过外部包裹层散发出来,不需要经过主支撑层,大大的提高了热传导的速度了效果,节能环保,适用范围广阔。
Carbon nanometer heat-conducting composite floor with high wear resistance and scratch resistance
The invention belongs to the technical field of floors, and particularly relates to a carbon nanometer heat-conducting composite floor with high wear resistance and scratch resistance. The carbon nanometer heat-conducting composite floor with high wear resistance and scratch resistance comprises a main support layer formed by composite materials and is of a strip-shaped plate structure; carbon nanometer heat-conducting composite layers are uniformly arranged on six surfaces of the outer part of the strip-shaped plate structure; and outer wrapping layers formed by composite materials are uniformly arranged on the other five surfaces of the outer parts of the carbon nanometer heat-conducting composite layers except for the bottom surface. The nanometer heat-conducting composite floor with high wear resistance and scratch resistance overcomes the defects of the prior art, the inner wrapping main support layer is formed by utilizing the materials such as carbon nanometer and polyvinyl chloride resin, then the outer wrapping layers are arranged on the five surfaces of the outer parts of the carbon nanometer heat-conducting composite layers, the bottom parts of the outer wrapping layersare opened, and heat energy favorably contacts the carbon nanometer heat-conducting composite layers, is then transmitted to other parts and is finally emitted through the outer wrapping layers instead of passing through the main support layer, so that the heat-conducting speed and a heat-conducting effect are greatly improved, and the carbon nanometer heat-conducting composite floor with high wear resistance and scratch resistance is energy-saving, environmental-friendly and broad in application range.
本发明属于地板技术领域,具体涉及一种高耐磨耐刮擦碳纳米导热复合地板,包括复合材料构成的主支撑层,主支撑层为条形板结构,条形板结构外部六个面均匀的设有碳纳米导热复合层,碳纳米导热复合层外部除底面的其他五个面均匀的设有由复合材料构成的外部包裹层,克服了现有技术的不足,利用碳纳米和聚氯乙烯树脂等材质构成里面包裹的主支撑层,然后在碳纳米导热复合层外部五个面设置外部包裹层,外部包裹层底部开放更利于热能与碳纳米导热复合层接触,然后传递到其他部位,最后通过外部包裹层散发出来,不需要经过主支撑层,大大的提高了热传导的速度了效果,节能环保,适用范围广阔。
Carbon nanometer heat-conducting composite floor with high wear resistance and scratch resistance
一种高耐磨耐刮擦碳纳米导热复合地板
FANG YIQUN (author) / ZHANG JUNHUA (author)
2020-05-05
Patent
Electronic Resource
Chinese
IPC:
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
,
Ausbau von Bauwerken, z.B. Treppen, Fußböden
/
C08K
Verwendung von anorganischen oder nichtmakromolekularen organischen Stoffen als Zusatzstoffe
,
USE OF INORGANIC OR NON-MACROMOLECULAR ORGANIC SUBSTANCES AS COMPOUNDING INGREDIENTS
/
C08L
COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
,
Massen auf Basis makromolekularer Verbindungen
INDOOR FLOOR MATERIAL WITH SUPERIOR SHOCK RESISTANCE AND SCRATCH RESISTANCE
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