被动式屋顶
南方很多楼房顶层虽然建造时设计有保温隔热层,但实际效果差强人意,很多住在顶楼的住户都十分无奈。
为了改善顶楼住户的居住舒适程度,我们可以利用超厚(10~20mm)的酚醛泡沫保温板为你建造一个舒适的被动式屋顶,让你住在顶楼如同住在下面一层或两层,感觉不到是住在顶楼。
为什么要用酚醛泡沫,因为酚醛泡沫有较低的导热系数和热扩散系数,以及尺寸稳定性等其他方面的优点,能够较好的阻挡热量传递到室内。关于酚醛泡沫的特点见后面叙述。
Passive house roof
Many buildings in the south, although the top design of the building is insulation layer, the actual results are unsatisfactory, many residents living in top floor are veryhelpless.
In order to improve the living comfort of the top floor occupants, we can use the phenolic foam insulation board with a thickness of 10-20mm to build a comfortable passive roof, you live in the top floor but feel you are living under the top floor.
Why choose phenolic foam for the insulation material, because it has a lower thermal conductivity and thermal diffusion coefficient as well as dimensional stability andother aspects of the advantages, can better block the heat transfer into the room. More features and advantages of the phenolic foam please kindly refer following content.
高性能酚醛泡沫保温板High-performance phenolic foam insulation board
我公司多年来专业致力于酚醛泡沫的研发生产,在酚醛泡沫的研发、生产、使用上积累了大量的经验,根据这些经验我们总结了酚醛泡沫的如下性能特点:
Our company has been dedicated to the research and development of phenolic foam for many years and accumulated a great deal of experience in the research, production and use ofphenolic foam. Based on these experiences, we summarized the following as performance characteristics of phenolic foam:
1极低的导热系数
酚醛泡沫的导热系数约为0.025w/(m.k),接近聚氨酯泡沫材料,优于挤塑板、聚苯板、岩棉、玻璃棉、泡沫玻璃、真金板等材料。而且我们公司还研发出了导热系数低于0.023w/(m.k)的酚醛泡沫保温板,应用于被动房可大大降低保温层的厚度。
1 Very low thermal conductivity
The thermal conductivity of Phenolic foam is about 0.025w / (m.k), close to the data of polyurethane foam, better than the extruded board, polystyrene board, rock wool, glasswool, foam glass and other materials. And our company has also developed a thermal conductivity of phenolic foam insulation boards which less than 0.023w / (m.k), will be used in passive housing toreduce the thickness of the insulation layer.
2良好的尺寸稳定性
酚醛泡沫属于热固性材料,无论在高低温(使用温度-250℃~150℃),还是长期使用后,尺寸稳定性都非常好。这点在外墙保温,尤其是薄抹灰系统中,显得尤为重要。
如果保温板尺寸稳定性不好,容易造成表面聚合物砂浆开裂以及保温板与聚合物砂浆脱层,最终导致外墙保温层脱落或屋面开裂渗水。
酚醛泡沫保温板的尺寸稳定性明显优于挤塑板、聚氨酯等材料。
2 good dimensional stability
Phenolic foam is thermosetting material, no matter in high and low temperature ( temperature range from -250 ℃to150℃) or long-termuse, the dimensional stability is very good. This is very important in the external wall insulation, especially in plastering system. If the size stability of insulation board is not good,likely to cause the polymer mortar surface cracking problem and insulation layer delamination from the polymer mortar, and ultimately lead to the insulation layer shedding from outer wall or roofcracking and water seepage problem. The dimensional stability of phenolic foam insulation board is much better than extruded board, polyurethane and other materials.
3优异的防火性能
酚醛泡沫生产时无需添加任何阻燃剂,氧指数大于40,高于一般的有机泡沫保温隔热材料。酚醛泡沫良好的防火性能表现在两方面:一是遇火不燃,仅遇火部分碳化,表面无滴落物、无卷曲、无熔化现象、不具有火焰传播性;二是遇火时发烟量低(**烟密度(SDR)不超过5),而且由于无需添加阻燃剂,几乎无毒性烟气产生,所以发生火灾时也便于消防员救援。
经测试,25mm厚的酚醛泡沫板在经受1500℃的火焰喷射10min后,仅表面略有碳化却烧不穿,既不会着火更不会散发浓烟和毒气。
3 excellent fire resistance performance
Phenolic foam's production is without adding any flame retardant, oxygen index is more than 40, higher than the normal organic foam insulation materials. The good fire resistanceperformance of the phenolic foam shown in two ways: Firstly, don't ignite in case of fire, only partial carbonization, there is no drop on the surface , no curl, no melting, without flamespread; secondly, Low smoke (maximum smoke density (SDR)is no more than 5), and almost no toxic smoke generated due to no flame retardants added in the production, so it is alsoeasy for firefighters rescue given on a fire.
According to the testing, 25mm thick phenolic foam board under 1500 ℃flame spray for 10min, there is only a little carbonized on the surface but not burnedout, no flame and no toxic smoke.
4极低的热扩散系数
什么是热扩散系数?
以物体受热升温的情况为例来分析。在物体受热升温的非稳态导热过程中,进入物体的热量沿途不断地被吸收而使局部温度升高,在此过程持续到物体内部各点温度全部相同为止。也是材料传播温度变化能力大小的指标,因而有导温系数之称。
热扩散系数越小材料中温度变化传播得越缓慢。
4 Extremely low thermal diffusivity
What is thermal diffusivity?
Take the case of heating up the object as an example to analyze. In the heat transfer process, the heat entering the object is continuously absorbed along the way to make localtemperature rise, this process will be kept till the temperature inside the object are all the same. It is also the indicators which show the capacity of the material transit the temperature, thus called the thermal conductivity.
The smaller the thermal diffusivity, the slower the propagation of the temperature change in the material.
材料名称 | 密度(Kg/m3) | 导热系数(w/(m.k)) | 热扩散系数(10-7m2/s) |
岩棉 | 100 | 0.04 | 3.56 |
聚苯板 | 30 | 0.038 | 8.62 |
真金板 | 27 | 0.05 | 6.79 |
聚氨酯板 | 50 | 0.022 | 3.43 |
酚醛板 | 50 | 0.025 | 1.83 |
真空绝热板(短切丝芯材) | 200 | 0.002 | 0.09 |
(以上数值为我公司从清华大学热流体实验室订购的热扩散系数检测仪检测所得)
(The above values from the thermal diffusion coefficient detector ordered from Thermal Fluid Laboratory of Tsinghua University )
(热扩散系数检测仪)
如果保温隔热材料具有越低的热扩散系数,温度从一侧传递到另一侧需要更多的时间。所以对保温隔热材料而言,除了要求有较低的导热系数之外,也应该要求有较低的热扩散系数。因此,热扩散系数也是除导热系数之外,影响保温隔热材料实际应用效果的重要的参数指标。
If the thermal insulating material has a lower thermal diffusivity, it takes more time for the temperature to pass from one side to the other. Therefore, thermal insulationmaterials requires not only has a lower thermal conductivity, but also require a lower thermal diffusivity.
Therefore, the thermal diffusion coefficient is another important parameter index impact thel practical application of the thermal insulation material .
5耐老化,与建筑同寿命。
酚醛泡沫本身抗腐蚀抗老化,几乎能够耐所有无机酸、有机酸、有机溶剂的侵蚀,长期暴露于阳光下,其他无明显老化现象,具有较好的耐老化性。
而且经观察测试,外墙外保温薄抹灰系统中的酚醛泡沫保温板在自然现实环境中,其闭孔率和泡孔结构稳定,几乎没有变化。
上世纪90年代以来,酚醛泡沫就开始应用于英美等发达国家的建筑保温,良好的酚醛泡沫性能可以保证与建筑同寿命。
5 anti-aging, and same life period with the building
Phenolic foam itself is anti-corrosion and anti-aging, almost can against all inorganic acids, organic acids, organic so*ents erosion, long-term exposure to sunlight, no othersignificant aging, with good aging resistance.
After observing and testing, the phenolic foam insulation board applied in exterior wall thermal insulation thin plaster system has almost no change in its closed porosity andstabe cell structure in the natural environment.
Since 1990s, phenolic foam was used for building insulation in the United States and other developed countries, good phenolic foam performance can guarantee the same lifewith building.