CN104261758B - Nanometer material of construction of a kind of anti-folding and anti-pressing and preparation method thereof - Google Patents

Nanometer material of construction of a kind of anti-folding and anti-pressing and preparation method thereof Download PDF

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Publication number
CN104261758B
CN104261758B CN201410475252.XA CN201410475252A CN104261758B CN 104261758 B CN104261758 B CN 104261758B CN 201410475252 A CN201410475252 A CN 201410475252A CN 104261758 B CN104261758 B CN 104261758B
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parts
construction
folding
nanometer
pressing
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CN201410475252.XA
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CN104261758A (en
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武春洋
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Shanghai green Finn nano Polytron Technologies Inc
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武春洋
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Abstract

Nanometer material of construction that the invention discloses a kind of anti-folding and anti-pressing and preparation method thereof, the nanometer material of construction of described anti-folding and anti-pressing comprises the raw material of following weight part: nano titanium oxide is 5 ~ 8 parts, pitch after heating is 7 ~ 15 parts, bauxitic clay is 11 ~ 19 parts, tricalcium silicate is 8 ~ 13 parts, acrylic resin is 4 ~ 9 parts, 400 object quartz powders are 6 ~ 10 parts, calcium acetate is 5 ~ 9 parts, water is 15 ~ 23 parts.Preparation method comprises heating, mixing, shaping, oven dry.Folding strength and the ultimate compression strength of the material of construction prepared effectively improve.

Description

Nanometer material of construction of a kind of anti-folding and anti-pressing and preparation method thereof
Technical field
The invention belongs to building material field, relate to material of construction of a kind of anti-folding and anti-pressing and preparation method thereof, nanometer material of construction particularly relating to a kind of anti-folding and anti-pressing and preparation method thereof.
Background technology
Nanotechnology refers to the technology making it rearrange to be combined into novel substance within the scope of nanoscale by handling atom, molecule, atomic group or molecular grouping, and research contents mainly comprises nano material technology, nanofabrication technique, nanometer Performance Detection technology and nano application technology etc.Current nanosecond science and technology have penetrated in a lot conventional industries, as dyestuff, coating, food etc.Nanotechnology, as an emerge science, will produce far-reaching influence to building materials field, and utilizing nanotechnology to solve high-performance building materials will become the inexorable trend of following building materials field development.High-tech nano material is introduced construction industry, develops new building material that is multi-functional, high added value, to improve the technology competition strength of Construction Bank of China industry, developing material of construction market position at home and abroad.Development of Nano-technology, to today, becomes the science and technology that one affects the socialization of industry development and national competitiveness, and nanosecond science and technology will in the new millennium to society, economic and national security generation great effect.
Summary of the invention
The technical problem solved: fracture resistance and the compressive property of common material of construction are poor, in use, due to the performance that it is poor, result in the restriction of its scope of application, simultaneously conventional material of construction is not nano level, if material of construction is prepared as nano level, anti-folding and the compressive property of material of construction effectively can be improved, nanometer material of construction therefore needing a kind of anti-folding and anti-pressing and preparation method thereof.
Technical scheme: for the problems referred to above, nanometer material of construction that the invention discloses a kind of anti-folding and anti-pressing and preparation method thereof,
The nanometer material of construction of described anti-folding and anti-pressing comprises the raw material of following weight part:
Preferably, the nanometer material of construction of described a kind of anti-folding and anti-pressing, nanometer material of construction comprises the raw material of following weight part:
Preferred further, the nanometer material of construction of described a kind of anti-folding and anti-pressing, nanometer material of construction comprises the raw material of following weight part:
A preparation method for the nanometer material of construction of anti-folding and anti-pressing, the preparation method of the nanometer material of construction of described anti-folding and anti-pressing comprises the following steps:
(1) by quartzite grinds, the order number of powder is 400 orders, then by asphalt heating to 90 DEG C, agitation as appropriate;
(2) get that nano titanium oxide is 5 ~ 8 parts by weight, pitch after heating is 7 ~ 15 parts, bauxitic clay is 11 ~ 19 parts, tricalcium silicate is 8 ~ 13 parts, acrylic resin is 4 ~ 9 parts, 400 object quartz powders are 6 ~ 10 parts, calcium acetate is 5 ~ 9 parts, water is 15 ~ 23 parts, mentioned component is carried out mix and blend, and being stirred to is evenly mixture;
(3) by prepare mix after mixture be injected in forming mould, extrusion forming;
(4) after extrusion forming, then carry out hyperthermia drying, bake out temperature is 80 DEG C, and drying time is 5h, prepares the nanometer material of construction of anti-folding and anti-pressing after oven dry.
The preparation method of the nanometer material of construction of described a kind of anti-folding and anti-pressing, preparation method preferably includes following steps:
(1) by quartzite grinds, the order number of powder is 400 orders, then by asphalt heating to 90 DEG C, agitation as appropriate;
(2) get that nano titanium oxide is 6 parts by weight, pitch after heating is 10 parts, bauxitic clay is 15 parts, tricalcium silicate is 11 parts, acrylic resin is 7 parts, 400 object quartz powders are 8 parts, calcium acetate is 7 parts, water is 19 parts, mentioned component is carried out mix and blend, and being stirred to is evenly mixture;
(3) by prepare mix after mixture be injected in forming mould, extrusion forming;
(4) after extrusion forming, then carry out hyperthermia drying, bake out temperature is 80 DEG C, and drying time is 5h, prepares the nanometer material of construction of anti-folding and anti-pressing after oven dry.
Beneficial effect: nanometer material of construction of the present invention is by selecting the material composition in material of construction, add nano titanium oxide, further increase anti-folding and the compressive property of material of construction, when nano titanium oxide is 5 ~ 8 parts, pitch after heating is 7 ~ 15 parts, bauxitic clay is 11 ~ 19 parts, tricalcium silicate is 8 ~ 13 parts, acrylic resin is 4 ~ 9 parts, 400 object quartz powders are 6 ~ 10 parts, calcium acetate is 5 ~ 9 parts, when water is 15 ~ 23 parts, the folding strength of the material of construction prepared is 34.6MPa to 38.9MPa, ultimate compression strength is 89.5MPa to 97.2MPa.
Embodiment
Embodiment 1
(1) by quartzite grinds, the order number of powder is 400 orders, then by asphalt heating to 90 DEG C, agitation as appropriate;
(2) get that nano titanium oxide is 6 parts by weight, pitch after heating is 10 parts, bauxitic clay is 15 parts, tricalcium silicate is 11 parts, acrylic resin is 7 parts, 400 object quartz powders are 8 parts, calcium acetate is 7 parts, water is 9 parts, mentioned component is carried out mix and blend, and being stirred to is evenly mixture;
(3) by prepare mix after mixture be injected in forming mould, extrusion forming;
(4) after extrusion forming, then carry out hyperthermia drying, bake out temperature is 80 DEG C, and drying time is 5h, prepares the nanometer material of construction of anti-folding and anti-pressing after oven dry.
Embodiment 2
(1) by quartzite grinds, the order number of powder is 400 orders, then by asphalt heating to 90 DEG C, agitation as appropriate;
(2) get that nano titanium oxide is 5 parts by weight, pitch after heating is 7 parts, bauxitic clay is 19 parts, tricalcium silicate is 13 parts, acrylic resin is 9 parts, 400 object quartz powders are 6 parts, calcium acetate is 5 parts, water is 23 parts, mentioned component is carried out mix and blend, and being stirred to is evenly mixture;
(3) by prepare mix after mixture be injected in forming mould, extrusion forming;
(4) after extrusion forming, then carry out hyperthermia drying, bake out temperature is 80 DEG C, and drying time is 5h, prepares the nanometer material of construction of anti-folding and anti-pressing after oven dry.
Embodiment 3
(1) by quartzite grinds, the order number of powder is 400 orders, then by asphalt heating to 90 DEG C, agitation as appropriate;
(2) get that nano titanium oxide is 8 parts by weight, pitch after heating is 15 parts, bauxitic clay is 11 parts, tricalcium silicate is 8 parts, acrylic resin is 4 parts, 400 object quartz powders are 10 parts, calcium acetate is 9 parts, water is 15 parts, mentioned component is carried out mix and blend, and being stirred to is evenly mixture;
(3) by prepare mix after mixture be injected in forming mould, extrusion forming;
(4) after extrusion forming, then carry out hyperthermia drying, bake out temperature is 80 DEG C, and drying time is 5h, prepares the nanometer material of construction of anti-folding and anti-pressing after oven dry.
Embodiment 4
(1) by quartzite grinds, the order number of powder is 400 orders, then by asphalt heating to 90 DEG C, agitation as appropriate;
(2) get that nano titanium oxide is 5 parts by weight, pitch after heating is 7 parts, bauxitic clay is 19 parts, tricalcium silicate is 13 parts, acrylic resin is 9 parts, 400 object quartz powders are 6 parts, water is 23 parts, mentioned component is carried out mix and blend, and being stirred to is evenly mixture;
(3) by prepare mix after mixture be injected in forming mould, extrusion forming;
(4) after extrusion forming, then carry out hyperthermia drying, bake out temperature is 80 DEG C, and drying time is 5h, prepares the nanometer material of construction of anti-folding and anti-pressing after oven dry.
Embodiment 5
(1) by quartzite grinds, the order number of powder is 400 orders, then by asphalt heating to 90 DEG C, agitation as appropriate;
(2) get that nano titanium oxide is 8 parts by weight, pitch after heating is 15 parts, bauxitic clay is 11 parts, tricalcium silicate is 8 parts, acrylic resin is 4 parts, 400 object quartz powders are 10 parts, water is 15 parts, mentioned component is carried out mix and blend, and being stirred to is evenly mixture;
(3) by prepare mix after mixture be injected in forming mould, extrusion forming;
(4) after extrusion forming, then carry out hyperthermia drying, bake out temperature is 80 DEG C, and drying time is 5h, prepares the nanometer material of construction of anti-folding and anti-pressing after oven dry.
Determine folding strength and the ultimate compression strength of nanometer material of construction of the present invention, result is as following table.
Observe from the performance index measurement result table, folding strength and the ultimate compression strength of nanometer material of construction of the present invention are all higher, improve anti-folding and the compressive property of material of construction.

Claims (5)

1. a nanometer material of construction for anti-folding and anti-pressing, is characterized in that the nanometer material of construction of described anti-folding and anti-pressing comprises the raw material of following weight part:
2. the nanometer material of construction of a kind of anti-folding and anti-pressing according to claim 1, is characterized in that the nanometer material of construction of described anti-folding and anti-pressing comprises the raw material of following weight part:
3. the nanometer material of construction of a kind of anti-folding and anti-pressing according to claim 2, is characterized in that the nanometer material of construction of described anti-folding and anti-pressing comprises the raw material of following weight part:
4. a preparation method for the nanometer material of construction of anti-folding and anti-pressing, is characterized in that the preparation method of the nanometer material of construction of described anti-folding and anti-pressing comprises the following steps:
(1) by quartzite grinds, the order number of powder is 400 orders, then by asphalt heating to 90 DEG C, agitation as appropriate;
(2) get that nano titanium oxide is 5 ~ 8 parts by weight, pitch after heating is 7 ~ 15 parts, bauxitic clay is 11 ~ 19 parts, tricalcium silicate is 8 ~ 13 parts, acrylic resin is 4 ~ 9 parts, 400 object quartz powders are 6 ~ 10 parts, calcium acetate is 5 ~ 9 parts, water is 15 ~ 23 parts, mentioned component is carried out mix and blend, and being stirred to is evenly mixture;
(3) by prepare mix after mixture be injected in forming mould, extrusion forming;
(4) after extrusion forming, then carry out hyperthermia drying, bake out temperature is 80 DEG C, and drying time is 5h, prepares the nanometer material of construction of anti-folding and anti-pressing after oven dry.
5. the preparation method of the nanometer material of construction of a kind of anti-folding and anti-pressing according to claim 4, is characterized in that the preparation method of the nanometer material of construction of described anti-folding and anti-pressing comprises the following steps:
(1) by quartzite grinds, the order number of powder is 400 orders, then by asphalt heating to 90 DEG C, agitation as appropriate;
(2) get that nano titanium oxide is 6 parts by weight, pitch after heating is 10 parts, bauxitic clay is 15 parts, tricalcium silicate is 11 parts, acrylic resin is 7 parts, 400 object quartz powders are 8 parts, calcium acetate is 7 parts, water is 19 parts, mentioned component is carried out mix and blend, and being stirred to is evenly mixture;
(3) by prepare mix after mixture be injected in forming mould, extrusion forming;
(4) after extrusion forming, then carry out hyperthermia drying, bake out temperature is 80 DEG C, and drying time is 5h, prepares the nanometer material of construction of anti-folding and anti-pressing after oven dry.
CN201410475252.XA 2014-09-17 2014-09-17 Nanometer material of construction of a kind of anti-folding and anti-pressing and preparation method thereof Expired - Fee Related CN104261758B (en)

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CN107244834A (en) * 2017-06-09 2017-10-13 合肥嘉仕诚能源科技有限公司 A kind of environment-protection nano construction material and preparation method thereof
CN107244835A (en) * 2017-06-13 2017-10-13 合肥大麦灯箱器材有限公司 A kind of construction material and preparation method thereof
CN107216065A (en) * 2017-06-22 2017-09-29 合肥永泰新型建材有限公司 A kind of floor and preparation method thereof
CN107265927A (en) * 2017-07-05 2017-10-20 肥西县碧涛建材有限公司 A kind of construction material and preparation method thereof
CN107201024A (en) * 2017-07-19 2017-09-26 合肥申沃园艺有限公司 A kind of flooring material being used in garden landscape and preparation method thereof
CN107216531A (en) * 2017-07-25 2017-09-29 合肥华盖光伏科技有限公司 A kind of environment-friendly building materials and preparation method thereof
CN108585741A (en) * 2018-07-20 2018-09-28 桐城市景瑞建筑装饰工程有限公司 A kind of wall body building material and preparation method thereof

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU1744077A1 (en) * 1990-03-13 1992-06-30 Институт Неорганической Химии И Электрохимии Ан Гсср Mineral powder for asphalt-cement mixtures
CN102924097A (en) * 2012-11-01 2013-02-13 李富朝 Carbon titanium combining self-protection brick for blast furnace hearth and furnace bottom
CN203049402U (en) * 2013-01-15 2013-07-10 长安大学 Pavement capable of lowering environmental temperature of road surface

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR101125485B1 (en) * 2011-12-14 2012-03-16 (주)렌텍 The composition of water-permeable asphalt concrete containing ps ball

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU1744077A1 (en) * 1990-03-13 1992-06-30 Институт Неорганической Химии И Электрохимии Ан Гсср Mineral powder for asphalt-cement mixtures
CN102924097A (en) * 2012-11-01 2013-02-13 李富朝 Carbon titanium combining self-protection brick for blast furnace hearth and furnace bottom
CN203049402U (en) * 2013-01-15 2013-07-10 长安大学 Pavement capable of lowering environmental temperature of road surface

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