CN1251358A - Light-wt. composite wall slurry and method for forming composite wall thereof - Google Patents

Light-wt. composite wall slurry and method for forming composite wall thereof Download PDF

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CN1251358A
CN1251358A CN 99114488 CN99114488A CN1251358A CN 1251358 A CN1251358 A CN 1251358A CN 99114488 CN99114488 CN 99114488 CN 99114488 A CN99114488 A CN 99114488A CN 1251358 A CN1251358 A CN 1251358A
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wall
composite wall
slurry
template
cement
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CN 99114488
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唐绍林
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唐绍林
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    • CCHEMISTRY; METALLURGY
    • C04CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
    • C04BLIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
    • C04B28/00Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/90Reuse, recycling or recovery technologies cross-cutting to different types of waste
    • Y02W30/91Use of waste materials as fillers for mortars or concrete
    • Y02W30/96Use of waste materials as fillers for mortars or concrete organic, e.g. rubber, polystyrene
    • Y02W30/97Vegetable refuse, e.g. rice husks, maize-ear refuse; cellulosic materials, e.g. paper

Abstract

The present invention relates to a material for making light composite wall body and forming method of said wall body. Said material is made up by using cement based gelling material, fly ash, heat-insulating light aggregate, aerating agent, additive and water through the processes of mixing, stirring and foaming, and its forming method includes the following steps: pouring said prepared slurry material into the closed mould cavity formed from shutter boards, after the slurry material is solidified to a certain strength, removing the shutter boards, finally, filling all edge notches and positioning holes on the composite wall body with same slurry material to obtain the invented light composite wall body.

Description

轻质复合墙体浆料及复合墙体成型方法 Lightweight composite wall composite wall and forming a slurry method

本发明涉及一种制作轻质复合墙体的物料及墙体的成型方法。 The present invention relates to a method of making a molding of lightweight composite wall materials and wall.

现有新型墙体材料主要分块材和板材两大类。 Existing main block new wall materials and sheet two categories. 块材类主要包括:粘土空心砖、硅酸钙砌块、加气砼块、炉渣砌块等,由于其存在容重大、运输及施工损耗高、湿作业量大、工效不佳等一些不足而逐渐被设计和施工单位所放弃,且部分材料(如粘土空心砖、炉渣砌块)因自身一些不可弥补的缺点也将被市场所淘汰。 Principal block material comprising: a hollow brick clay, calcium silicate blocks, aerated concrete block, slag and other blocks, as a major volume, high construction and transportation losses, large wet operation, poor efficiency and some its shortcomings gradually It was abandoned by the design and construction units, and some materials (such as clay hollow bricks, slag blocks) because some of its shortcomings irreparable will also be eliminated by the market. 板材类主要包括:三维板、GRC板、轻钢龙骨纸面石膏板、ALC加气板等。 The main plate type comprising: a three-dimensional board, GRC board, plaster board Strut channels, filling the ALC panels. 其与块材相比较而言在轻质、工效等方面虽有所提高,但仍存在诸如:成本高、制作无法保证质量、表面不平整、面层及接点易裂缝、施工繁琐、重复劳动量大、吊挂能力差、门窗框不易连接、与主体建筑配套不佳、整体欠牢固等问题,虽经有关技术人员一再努力,但始终不能从根本上解决问题,从某种意义上说只不过是块体材料在一定范围内的放大,更没有一个质的突破。 With the bulk of light in comparison, despite the improved efficiency and the like, but there are still such as: high costs, the production can not ensure the quality, surface irregularities, and contact the surface layer cracks easily, complicated construction, the amount of duplication large, hanging poor, door frames easily connected with the main building of poor infrastructure, overall firm owes other issues, despite repeated efforts by the relevant technical personnel, but still can not solve the problem fundamentally, in a sense only the bulk material is in a range of amplification, not a qualitative breakthrough. 且现有轻质墙体的制作过程为:原料采购→运输进厂→配料加工(含料耗、人工、水电、管理费、财务费、工厂折旧、机械费用等)→脱模养护→装车运输→下车吊运→施工安装→接点、缝处理→面层处理→修补。 And the existing light wall of the production process are: procurement of raw materials into the factory → → Transport ingredient processing (including material consumption, labor, utilities, management fees, finance charges, depreciation of plant, machinery costs, etc.) → stripping → loading conservation transport trolley off → → → installation construction joint, joint treatment of the surface layer → → repair process. 其生产工艺繁杂。 Its production process is complicated.

本发明的目的就是为了解决上述问题,提出一种生产工艺简单合理,成本及损耗低,效率高,质量好的轻质复合墙体浆料及复合墙体成型方法。 Object of the present invention is to solve the above problem, a production process is simple and reasonable, and low cost loss, high efficiency, good quality slurry and the lightweight composite wall composite wall molding method.

本发明的技术解决方案:一种轻质复合墙体浆料,其特征在于它由水泥基胶凝料、粉煤灰、保温轻骨料、引气剂、外加剂经与水混合、搅拌、发泡制成,其各成份的重量百分比为:水泥基胶凝料 60-70%粉煤灰 15-25%保温轻骨料 2-10%引气剂 1-5%外加剂 2-11%。 Technical solutions of the present invention: A light weight composite slurry wall, characterized in that it consists of cement-based cementitious materials, fly ash, lightweight aggregate insulation, air-entraining agent admixture mixed with water, stirred, made of foam, which is the percentage by weight of each component: cement-based cementitious material incubated 60-70% lightweight aggregate 15-25% ash 2-10% entraining agent 1-5% additives 2-11% .

一种轻质复合墙体的成型方法,其特征在于在需浇注轻质复合墙体的部位根据厚度和大小的需要,采用垂线法找出墙体轮廓线,在需浇注墙体的正中线,上、下梁及两侧柱的中线根据墙体的高度,定点打眼加入膨胀螺丝或钢筋头牢固后,进行拉筋焊接,用扎丝将纵横钢筋交叉点扎紧后形成钢筋网架,然后根据该面墙体的长度和高度选配所需模板,在对模板内侧进行脱模剂喷涂后围绕钢筋网架并根据需浇注轻质复合墙体的厚度进行拼装,拼装时,通过预留在模板上的多个定位螺栓孔用特制螺栓进行固定并调节所需厚度,各模板相互之间的拼装采用楔口结构对接,模板与上、下梁及两侧柱之间的接点用高强度膨胀胶进行密封,形成一封闭的模框,模框上方设有注浆孔,将配制好的浆料从注浆孔注入封闭模框内,待浆料凝固达到一定强度后拆去模板,最 A molding method of lightweight composite wall, characterized in that the casting required light weight composite wall portion of the required thickness and size, using the vertical method to find the contour of the wall, the wall needs to casting midline upper, middle and lower beam on both sides of the column depending on the height of the wall, the expansion point drill screws or reinforced after addition of solid head, a stretch welded steel mesh with a rack formed ligation after vertical and horizontal truss reinforced intersection point, then the time required for the template wall surface matching length and height, and for an assembly according to the thickness of the casting of lightweight composite wall of the inner template in the die spraying around steel grid, assembled, in a reserved positioning a plurality of bolt holes in the template with a special bolts and adjust the desired thickness, the template assembly between each docking port structure using the wedge, the template with the upper and lower sides of the junction between the column and the high-strength beam expander rubber sealing, to form a closed mold frame, the mold frame is provided above the grouting holes, the prepared slurry is injected into the closed mold from the frame grouting holes, until the slurry reaches a certain intensity solidified remove the template, most 将复合墙体上沿口及各定位螺栓孔用同配比浆料进行填补,就制成本发明的轻质复合墙体。 The composite wall and each bead positioned bolt holes for filling with the slurry ratio, it is made of lightweight composite wall of the invention.

本发明从根本上解决了现有板材(含块材)所克服不了的缺点。 The present invention solves the disadvantages of the prior plate (including bulk) are not fundamentally overcome. 从思维本身就是一个飞跃。 From the mind itself is a leap. 彻底改变过去传统且繁琐的生产工艺过程,将制造工厂和施工现场合二为一,大大降低了建筑成本,降低损耗及一切中间环节费用。 Completely change the traditional and cumbersome production process, the manufacturing plant and the construction site into one, greatly reduce the construction costs, reduce losses and the cost of all intermediate links. 避免了在制作、运输及拼装过程中所带来的质量隐患。 Avoids the production, transportation and assembly process caused by quality problems. 本发明制作过程为:原料采购→运输进施工现场→配料搅拌→立模注浆→脱模养护。 Production process of the present invention are: procurement of raw materials into the construction site, transportation → → → ingredients stirred grouting → formwork release conservation. 本发明采用独特配比轻质加气保温浆料,内置经防腐处理的钢筋网架,与梁柱地面均采取特殊方法焊接牢固。 The present invention employs a unique matching insulation lightweight aerated slurry, the built-in anti-corrosion treatment of steel grid, and take special measures are ground beam firmly welded. 采用本发明专门设计的配套组合立模装置,此立模装置可根据墙体厚度、高度、拐角、直角等不同需求进行拼接组合,采用特殊密封材料对边缝接口进行密封处理,同一面层模板与模板之间采用槽口对接并加以紧固措施,上留注浆口进行注浆。 Supporting formwork using a combination of the present invention a specially designed apparatus, the formwork means may be combined according to different needs splicing wall thickness, height, corners, rectangular, etc., the interface of the seam sealing treatment using special sealing material layer with one surface of the template docking and tighten measures and the use of the slot between the template and the left grouting grouting mouth. 本发明的浆料采用水泥基胶凝料(如氯氧镁水泥、普硅水泥、硫铝酸盐水泥等)配以粉煤灰、粉碎泡沫粒籽、木屑、珍珠岩等加适量外加剂,引气剂发泡搅拌而成,自流性很好。 Using cement slurry of the present invention is based gelling material (e.g., magnesium oxychloride cement, ordinary Portland cement, sulfur cement, etc.) together with the fly ash, pulverized seeds foam beads, sawdust, perlite add appropriate amount of additives, stirring air-entraining agent from the foam, gravity is very good. 本发明经调整水泥胶凝料配比及钢筋配量后完全适用于各种框架(含非框架)结构的非承重外墙。 After the present invention is adjusted by the ratio of cement and cementitious materials reinforced with fully applicable to the amount of the frameworks (including non-framework) of the non-load bearing exterior wall structure. 所涉及的浆料同样适用于楼面保温和特殊部位的砼回填。 It relates to a slurry equally applicable to backfill concrete floor insulation and special parts.

以下将结合附图对本发明作进一步说明。 Below in conjunction with accompanying drawings of the present invention will be further described.

图1是本发明轻质墙体整体浇注立面示意图;图2是图1的AA剖面示意图;图3是本发明的模板拼接示意图。 FIG 1 is a lightweight wall integrally cast elevation schematic view of the present invention; FIG. 2 is a schematic cross-sectional view AA of FIG. 1; FIG. 3 is a schematic view of the splice template of the present invention.

本发明的轻质复合墙体浆料由水泥基胶凝料、粉煤灰、保温轻骨料、引气剂、外加剂经与水混合、搅拌、发泡制成,其各成份的重量百分比为:水泥基胶凝料 60-70%粉煤灰 15-25%保温轻骨料 2-10%引气剂 1-5%外加剂 2-11%本发明中,本发明的水泥基胶凝料可采用氯氧镁水泥、普硅水泥、硫铝酸盐水泥等。 Lightweight composite wall cement slurry of the present invention is based gelling material, fly ash, lightweight aggregate insulation, air-entraining agent admixture mixed with water, stirred, made of foam, the weight percentage of each component thereof It is: cement 60-70% fly ash based gelling material incubated lightweight aggregate 15-25% 2-10% 1-5% air-entraining agent admixture of 2-11% in the present invention, the present invention CEMENTING materials may be employed oxychloride cement, ordinary Portland cement, sulphoaluminate cement. 保温轻骨料可采用木屑、珍珠岩等,最好采用粉碎泡沫粒子,因为它为有机材料,不吸水故成型后的墙体不会造成裂缝,且具有轻质、保温、隔声等效果。 Insulation lightweight aggregate can be sawdust, perlite, crushed foam particles is preferably used, because it is an organic material, does not absorb water so that the wall does not cause cracks in the molding, and having a light weight, thermal insulation, sound insulation effect. 本发明的引气剂可采用松香热聚物、木质素磺酸盐、骨胶系列等。 Air entraining agent of the present invention can be hot polymer rosin, lignin sulfonates, glue series. 本发明的外加剂有高效减水剂、早强剂、防水剂等,其中高效减水剂可采用DNI、JK等系列产品,防水剂可采用铝酸钙、硫酸亚铁等。 Admixture of the present invention has a superplasticizer, early strength agent, waterproofing agent, wherein the superplasticizer may be employed DNI, JK, and other products, waterproofing agent can be calcium aluminate, ferrous sulfate and the like.

本发明浆料制作实施例1:取氯氧镁水泥63公斤、粉煤灰25公斤、泡沫粒子3公斤、松香热聚物5公斤、硫酸亚铁防水剂3.97公斤、DNI高效减水剂0.03公斤,先将松香热聚物在打泡机内加热并高速搅拌达到其发泡效果后待用,再将上述含量的氯氧镁水泥、粉煤灰、泡沫粒子与水在容器内混合搅拌均匀呈稠浆状后,加入上述含量的硫酸亚铁防水剂和DNI高效减水剂及部分发泡后的松香热聚物,搅拌后,再加入水和余量的发泡后的松香热聚物,再搅拌均匀即得本发明的稀状轻质复合墙体浆料。 Example embodiments of the present invention, a slurry prepared 1: To 63 kg of magnesium oxychloride cement, fly ash 25 kg, 3 kg of foam particles, rosin hot polymer 5 kg, 3.97 kg of ferrous sulfate waterproofing agent, the DNI superplasticizer 0.03 kg , first rosin pyrolytic polymer was heated and stirred at high speed to achieve the foaming effect after foaming machine in the stand, and then the magnesium oxychloride cement, fly ash, foam particles mixed with water in the stirred contents in the container were uniformly after the thick slurry, was added to the content of ferrous sulfate and waterproofing agent and a rosin DNI superplasticizer hot polymer after foaming and, after stirring, adding water after dimer rosin heat balance and foaming, and then uniformly stirring the present invention to obtain a dilute slurry-like lightweight composite wall.

实施例2:取525#普通硅酸盐水泥66公斤、粉煤灰20公斤、珍珠岩8公斤、木质素磺酸盐1公斤、JK高效减水剂0.04公斤、早强剂3.96公斤、铝酸钙防水剂1公斤,按上述方法制得稀状轻质复合墙体浆料。 Example 2: To 525 # ordinary portland cement 66 kg, 20 kg fly ash, perlite 8 kg, 1 kg lignosulfonate, JK superplasticizer 0.04 kg, 3.96 kg early strength agent, aluminate 1 kg calcium waterproofing agent, prepared as described above dilute slurry-like lightweight composite wall.

实施例3:取硫铝酸盐水泥69公斤、粉煤灰15公斤、锯屑6公斤、骨胶系列引气剂4公斤、DNI高效减水剂0.02公斤、早强剂1公斤、硫酸亚铁防水剂4.98公斤,按上述方法制得稀状轻质复合墙体浆料。 Example 3: 69 kg of sulfur aluminate cement, fly ash 15 kg, 6 kg sawdust, glue series of air entraining agent 4 kg, the DNI superplasticizer 0.02 kg, early strength agent 1 kg, ferrous sulfate waterproof agent 4.98 kg, prepared as described above dilute slurry-like lightweight composite wall.

本发明轻质复合墙体的成型方法如图1-2所示,在需浇注轻质复合墙体的部位根据厚度和大小的需要,采用垂线法找出墙体1轮廓线,在需浇注墙体1的正中线,上、下梁2、3及两侧柱4的中线根据墙体1的高度,定点(间距约40cm)打眼加入膨胀螺丝或钢筋头牢固后,进行拉筋焊接,用扎丝将纵横钢筋交叉点扎紧后形成钢筋网架5。 The method of forming a lightweight composite wall of the present invention is shown in Figure 1-2, the need to cast lightweight composite wall portion of the required size and thickness, to find a wall using the vertical contour method, casting in need midline wall 1, the upper, middle and lower beam on both sides of the column 2, 3, 4 depending on the height of the wall 1, after point (a spacing of about 40cm) was added expansion screws or drilling a solid steel head, a welding stretch, with the ligation vertical and horizontal steel reinforced grid intersections formed after 5 truss. 在需浇注的内墙体1大于18cm和外墙体1使用时,需立双排钢筋网架5,其两排钢筋网架5所空部位应离模板6内侧4cm为宜,然后根据该面墙体1的长度和高度选配所需模板6,在对模板6内侧进行脱模剂喷涂后围绕钢筋网架5并根据需浇注轻质复合墙体1的厚度进行拼装,拼装时,通过预留在模板6上的多个定位螺栓孔7用特制螺栓8进行固定并调节所需厚度。 When required in the casting wall and the outer wall is greater than 18cm 1 used for an upright double reinforcement grid 5, which two rows of five empty grid reinforcement portion 6 from the inside should preferably 4cm template and then the surface 6 when the required length and height of the template matching of the wall 1, 5 and assembled in accordance with the casting of lightweight composite wall thickness required after 1 to 6 around the inner die spraying template steel grid, assembled by pre 6 is left on the template holes a plurality of bolts 7 is fixed with a special screw 8 and adjust the desired thickness. 各模板6相互之间的拼装可采用楔口结构对接,如图3所示,模板6与上、下粱2、3及两侧柱4之间的接点用高强度膨胀胶进行密封,形成一封闭的模框,模框上方设有注浆孔9。 Each template can be assembled to each other between the wedge 6 docking port structure, as shown, and the upper plate 6, the junction between the lower beam 2, 3 and 4 on both sides of the column sealed with a high strength expanded plastic 3, is formed a closed mold frame, the mold frame is provided above the grouting holes 9. 此时即可将本发明配制好的浆料从注浆孔9注入封闭模框内,待浆料凝固达到一定强度后就可拆去模板6,最后将复合墙体1上沿口及各定位螺栓孔7用同配比浆料进行填补,就制成本发明的轻质复合墙体。 At this time, the present invention is formulated to be injected into the closed mold box from a slurry grouting holes 9, can be coagulated slurry reaches a certain intensity remove the template 6, and finally the composite wall 1 and each bead positioned 7 with the bolt holes with the padded ratio slurry to lightweight composite wall system of the invention.

Claims (5)

1.一种轻质复合墙体浆料,其特征在于它由水泥基胶凝料、粉煤灰、保温轻骨料、引气剂、外加剂经与水混合、搅拌、发泡制成,其各成份的重量百分比为:水泥基胶凝料 60-70%粉煤灰 15-25%保温轻骨料 2-10%引气剂 1-5%外加剂 2-11%。 1. A light weight composite slurry wall, characterized in that it consists of cement-based cementitious materials, fly ash, lightweight aggregate insulation, air-entraining agent admixture mixed with water, stirred, made of foam, its percentage by weight of each component is: cement 60-70% fly ash based gelling material incubated 15-25% lightweight aggregate entraining agent 2-10% 1-5% 2-11% additives.
2.根据权利要求1所述的轻质复合墙体浆料,其特征在于所述水泥基胶凝料采用氯氧镁水泥、普硅水泥、硫铝酸盐水泥;保温轻骨料采用木屑、珍珠岩或粉碎泡沫粒子;引气剂采用松香热聚物、木质素磺酸盐、骨胶系列;外加剂有高效减水剂、早强剂、防水剂。 The slurry lightweight composite wall according to claim 1, wherein said cement-based cementitious material using magnesium oxychloride cement, ordinary Portland cement, sulfur cement; insulation lightweight aggregate using sawdust, crushed perlite or foam particles; entraining agent using hot polymer rosin, lignin sulfonates, glue series; have superplasticizer admixture, early strength agents, waterproofing agent.
3.根据权利要求2所述的轻质复合墙体浆料,其特征在于所述高效减水剂采用DNI、JK系列产品,防水剂采用铝酸钙、硫酸亚铁。 The slurry lightweight composite wall according to claim 2, wherein said superplasticizer using DNI, JK products, waterproofing agent calcium aluminate, ferrous sulfate.
4.一种轻质复合墙体的成型方法,其特征在于在需浇注轻质复合墙体的部位根据厚度和大小的需要,采用垂线法找出墙体轮廓线,在需浇注墙体的正中线,上、下梁及两侧柱的中线根据墙体的高度,定点打眼加入膨胀螺丝或钢筋头牢固后,进行拉筋焊接,用扎丝将纵横钢筋交叉点扎紧后形成钢筋网架,然后根据该面墙体的长度和高度选配所需模板,在对模板内侧进行脱模剂喷涂后围绕钢筋网架并根据需浇注轻质复合墙体的厚度进行拼装,拼装时,通过预留在模板上的多个定位螺栓孔用特制螺栓进行固定并调节所需厚度,各模板相互之间的拼装采用楔口结构对接,模板与上、下粱及两侧柱之间的接点用高强度膨胀胶进行密封,形成一封闭的模框,模框上方设有注浆孔,将配制好的浆料从注浆孔注入封闭模框内,待浆料凝固达到一定强度后拆去模板, 4. A method of forming a lightweight composite wall, characterized in that the casting required light weight composite wall portion of the required thickness and size, using the vertical method to find the contour of the wall, the wall needs to casting midline, upper, middle and lower beam on both sides of the column depending on the height of the wall, the expansion point drill screws or a solid steel head was added, for welding stretch, the aspect is formed by ligation of reinforced steel grid intersections fastened after when, based on the template and then the desired length and height of the wall face matching, and for an assembly according to the thickness of the casting lightweight composite wall, assembled in the inside of the template die spraying around steel grid, by pre left on the plurality of template positioning bolt holes and bolted with a special adjust the desired thickness, the template assembly between each docking port structure using the wedge, and the contact between the template and the upper and lower sides of the column and the high beam sealing strength plastic expansion, to form a closed mold frame, the mold frame is provided above the grouting holes, the prepared slurry is injected into the closed mold from the frame grouting holes, remove the template to be solidified after the slurry reaches a certain intensity, 后将复合墙体上沿口及各定位螺栓孔用同配比浆料进行填补,就制成本发明的轻质复合墙体。 Positioning bead and each padded with bolt holes on the ratio of the slurry after the composite wall, it is made of lightweight composite wall of the invention.
5.根据权利要求4所述的轻质复合墙体的成型方法,其特征在于在需浇注的内墙体大于18cm和外墙体使用时,需立双排钢筋网架,其两排钢筋网架所空部位应离模板内侧4cm为宜。 The molding method of lightweight composite wall according to claim 4, characterized in that the casting takes inner wall and the outer wall is greater than 18cm use, for an upright double steel grid, which two rows of reinforcing mesh the empty frame from the inner portion should preferably 4cm template.
CN 99114488 1999-10-15 1999-10-15 Light-wt. composite wall slurry and method for forming composite wall thereof CN1251358A (en)

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US6893751B2 (en) 2001-03-02 2005-05-17 James Hardie Research Pty Limited Composite product
CN100398483C (en) 2005-08-15 2008-07-02 周正华 Lightweight heatproof porous wall material and building blocks
CN101565975B (en) 2009-05-26 2010-11-10 周汉村 Self heat preserving wall body and manufacturing method thereof
US7993570B2 (en) 2002-10-07 2011-08-09 James Hardie Technology Limited Durable medium-density fibre cement composite
US7998571B2 (en) 2004-07-09 2011-08-16 James Hardie Technology Limited Composite cement article incorporating a powder coating and methods of making same
CN102190464A (en) * 2010-03-12 2011-09-21 古金盛 Inorganic lightweight grouting material, and manufacture method thereof
CN102459775A (en) * 2009-06-05 2012-05-16 Hsem管理私人有限公司(Hsem控股信托的受托人) Aspects of Construction
CN101434477B (en) 2008-12-12 2014-04-16 江苏华伟佳建材科技有限公司 Expansion vitrification micro-sphere heat insulation formwork and production method thereof
CN104213688A (en) * 2013-05-29 2014-12-17 钟祥鼎茂科技有限公司 Production method for environment-friendly inflaming retarding and heat insulation light color steel composite plate
CN104405078A (en) * 2014-11-05 2015-03-11 邹绍国 Constructional partition plate and preparation method thereof
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Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6893751B2 (en) 2001-03-02 2005-05-17 James Hardie Research Pty Limited Composite product
US7993570B2 (en) 2002-10-07 2011-08-09 James Hardie Technology Limited Durable medium-density fibre cement composite
US7998571B2 (en) 2004-07-09 2011-08-16 James Hardie Technology Limited Composite cement article incorporating a powder coating and methods of making same
CN100398483C (en) 2005-08-15 2008-07-02 周正华 Lightweight heatproof porous wall material and building blocks
US8993462B2 (en) 2006-04-12 2015-03-31 James Hardie Technology Limited Surface sealed reinforced building element
CN101434477B (en) 2008-12-12 2014-04-16 江苏华伟佳建材科技有限公司 Expansion vitrification micro-sphere heat insulation formwork and production method thereof
CN101565975B (en) 2009-05-26 2010-11-10 周汉村 Self heat preserving wall body and manufacturing method thereof
CN102459775A (en) * 2009-06-05 2012-05-16 Hsem管理私人有限公司(Hsem控股信托的受托人) Aspects of Construction
CN102190464A (en) * 2010-03-12 2011-09-21 古金盛 Inorganic lightweight grouting material, and manufacture method thereof
CN104213688A (en) * 2013-05-29 2014-12-17 钟祥鼎茂科技有限公司 Production method for environment-friendly inflaming retarding and heat insulation light color steel composite plate
CN104213688B (en) * 2013-05-29 2017-03-15 钟祥鼎茂科技有限公司 The production method of environmental-protection flame-retardant heat-insulation light color-steel composite board
CN104405078A (en) * 2014-11-05 2015-03-11 邹绍国 Constructional partition plate and preparation method thereof
CN106630878A (en) * 2016-12-29 2017-05-10 常州工程职业技术学院 High-temperature-resistant wall material produced by utilizing waste glass particles and preparation method of wall material
CN106630878B (en) * 2016-12-29 2019-01-01 常州工程职业技术学院 Utilize the high temperature resistant materials for wall and preparation method thereof of cullet particle manufacture

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