CN103896558A - Preparation method of infrared ceramic vacuum cup and product prepared by same - Google Patents

Preparation method of infrared ceramic vacuum cup and product prepared by same Download PDF

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CN103896558A
CN103896558A CN 201410088764 CN201410088764A CN103896558A CN 103896558 A CN103896558 A CN 103896558A CN 201410088764 CN201410088764 CN 201410088764 CN 201410088764 A CN201410088764 A CN 201410088764A CN 103896558 A CN103896558 A CN 103896558A
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glaze
blank
oxide
mud
raw materials
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CN 201410088764
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CN103896558B (en )
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肖杨
胡飞
谢庚
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湖南港鹏实业有限公司
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Abstract

The invention relates to a preparation method of an infrared ceramic vacuum cup and a product prepared by the same. A formula of a blank comprises the raw materials in parts by weight: 10-30% of Longyan cleansing mud, 10-30% of Chenzhou mud, 15-30% of Yunnan sand, 15-30% of potassium feldspar, 5-10% of medical stone, 0.5-5% of titanium oxide, 2-10% of zirconium silicate, 0.5-3% of manganese dioxide and 0.2-1% of yttrium oxide. A formula of glaze comprises the raw materials in parts by weight: 20-40% of potassium feldspar, 5-15% of sodium feldspar, 5-15% of kaolin, 20-40% of quartz, 10-30% of calcite, 1-5% of talc, 1-5% of zinc oxide, 1-5% of titanium oxide, 2-5% of manganese dioxide, 5-15% of zirconium silicate, 1-5% of ferric oxide and 0.2-1% of yttrium oxide. The product with a good health care function is obtained by the steps of preparing the blank and the glaze, forming, drying, biscuiting, glazing and firing glaze and has broad application prospect.

Description

—种红外陶瓷保温杯的制备方法及其制得的产品 - The method of producing a ceramic infrared heat insulating cup and products made

技术领域 FIELD

[0001] 本发明属于无机非金属材料(陶瓷)领域,具体涉及一种红外陶瓷保温杯的制备方法及其制得的产品。 [0001] The present invention belongs to inorganic non-metallic materials (ceramics), and in particular relates to a method for preparing a ceramic infrared heat insulating cup and products made.

背景技术[0002] 远红外线与人体内细胞分子的振动频率接近,会引起人体细胞的原子和分子的共振,通过共鸣吸收分子之间摩擦生热形成热反应,促进皮下深层温度上升,并使微血管扩张,促进和改善血液循环,增强新陈代谢,有利于清除血管囤积物及体内有害物质,提高人体免疫功能,具有良好的人体保健功能。 [0002] oscillation frequency of the far infrared cell molecule in the human body proximity, can cause resonance of atoms and molecules of human cells, friction heat is formed by a thermal reaction between molecular resonance absorption, promote skin deep temperature rise, and microvascular expansion, promote and improve blood circulation, increase metabolism, help clear the blood vessels in vivo accumulation of objects and harmful substances, improve immune function, the body has a good health care function. 能发射远红外线的物质大多是无机材料,这是由于无机材料内部容易形成缺陷,如在莫来石、堇青石的晶相中掺杂Ti4+、Mg2+、Y3+、Pd3+、Ni2+、Fe3+、Zr4+、Ti4+等离子后,分子振动不对称而发射出远红外线。 Most energy far-infrared emitting material is an inorganic material, since the inside of the inorganic material is easy to form defects such as mullite, cordierite crystalline phase doping Ti4 +, Mg2 +, Y3 +, Pd3 +, Ni2 +, Fe3 +, Zr4 +, Ti4 + Once plasma, asymmetric molecular vibration to emit far infrared.

[0003] 在CN102070324A中制备出一种远红外陶瓷球,该陶瓷球可以辐射出远红外线,杀灭水中的大肠杆菌等有害微生物。 [0003] prepare a far infrared ceramic balls CN102070324A, the ceramic balls can radiate far-infrared rays, to kill harmful microorganisms such as E. coli in water. 专利CN1027365C制备出远红外陶瓷粉末,然后再添加到各种器皿、服装中,通过远红外陶瓷粉末来发射远红外线,可以起到保健作用。 Patent CN1027365C far infrared ceramic powder is prepared, and then add a variety of containers, clothing, by emitting far infrared to far-infrared ceramic powder, can play a role in health care. ,中国专利CN101849781将托玛琳陶粒球加入到保温杯的隔层中,但托玛琳陶粒球发射远红外功能较弱,对水的活性性能低,但是到目前为止还没有将远红外保健技术应用到陶瓷杯中的报道。 , Chinese patent CN101849781 tourmaline ceramic balls will be added to the interlayer insulation Cup, but tourmaline ceramic ball far infrared emission function is weak, low-active properties of the water, but so far no far-infrared application of technology to health ceramic cup coverage.

发明内容 SUMMARY

[0004] 本发明要解决的技术问题是提供一种对水有活化功能、具有良好保健功能、原料成本低廉、生产工艺简单的红外陶瓷保温杯的制备方法及其制得的产品。 [0004] The present invention is to solve the technical problem of providing a function for water-activated, with good health function, low raw material costs, a simple production process for producing a ceramic mug Infrared and products made.

[0005] 为解决以上技术问题,本发明的技术方案是:一种红外陶瓷保温杯的制备方法,采用矿物原料及化工原料,其坯料和釉料配方的重量百分比组成为: [0005] To solve the above technical problem, the technical solution of the present invention is: A method for preparing a ceramic infrared heat insulating cup, the use of mineral raw materials and chemical raw materials, the weight of the blank and glaze formulation percentage composition:

坯料:龙岩洗泥10~30%、郴州泥10~30%、云南砂15~30%、钾长石15~30%、麦饭石5~10%、氧化钛0.5~5%、硅酸锆2~10%、二氧化锰0.5~3%、氧化钇0.2~1% ; Blank: Mud Longyan 10 to 30%, 10 to 30% Chenzhou mud, sand Yunnan 15-30%, 15-30% feldspar, stone 5 to 10%, 0.5 to 5% of titanium oxide, zirconium silicate 2-10%, 0.5-3% manganese dioxide, 0.2 to 1% yttrium oxide;

轴料:钟长石20~40%、纳长石5~15%、高岭土5~15%、石英20~40%、方解石10~30%、滑石I~5%、氧化锌I~5%、氧化钛I~5%、二氧化猛2~5%、娃酸错5~15%、氧化铁I~5%、氧化钇0.2~1% ; Shaft material: bell feldspar 20-40% sodium feldspar 5 to 15% kaolin 5% to 15%, silica 20-40%, calcite 10 to 30% Talc the I ~ 5% zinc oxide, the I - 5% the I to 5% titanium, 2-5% Meng dioxide, baby acid 5 to 15% error, the I to 5% iron, 0.2 to 1% yttrium oxide;

经过坯料和釉料制备、成型、干燥、坯体素烧、施釉、干燥、中温釉烧获得制品,其中坯体素烧温度范围为:700~1100°C,中温釉烧温度为1280°C、烧成时间为8~10h。 After the blank and the prepared glaze, molding, drying and bisque firing green body, glazing, dried, the product obtained glaze firing temperature, wherein the green body unglazed temperature range: 700 ~ 1100 ° C, the glaze firing temperature is a temperature of 1280 ° C, calcination time is 8 ~ 10h.

[0006] 所述坯料的制备工艺为:按坯料配方称量原料混合均匀,加入重量百分比为0.1~0.4%的三聚磷酸钠和0.2~0.8%的水玻璃作为稀释剂,然后装入球磨设备内球磨,出磨泥料比重为1.58~1.65g/cm3,再经陈腐制成还料。 [0006] The blank for the preparation process: mixing raw materials according to Formulation blank well, add 0.1 weight percent to 0.4% sodium tripolyphosphate and 0.2 to 0.8% of water glass as a diluent, then charged ball mill within a ball mill, a homogenizer gravity feed of 1.58 ~ 1.65g / cm3, and then the material is also made stale.

[0007] 所述釉料的制备工艺为:按釉料配方称量原料合均匀后,加入重量百分比为 [0007] The preparation process for the glaze: Formulation press glaze raw materials together well, add weight percent

0.3~0.8%的羧甲基纤维素和0.2~0.6%的三聚磷酸钠作为添加剂,然后装入球磨设备内球磨,出磨釉料比重为1.55~1.65g/cm3。 0.3 to 0.8% of carboxymethyl cellulose and 0.2 to 0.6% of sodium tripolyphosphate as an additive, and then loaded into a ball mill ball mill, the grinding of the glaze specific gravity of 1.55 ~ 1.65g / cm3.

[0008] 所述氧化锌、氧化铝、滑石使用前需先经过预烧,煅烧温度为1200°C。 [0008] The zinc oxide, the former alumina, talc need to use pre-firing, the firing temperature is 1200 ° C. [0009] 所述釉料化学成分的质量百分比如下=Al2O3 6~10%、SiO2 64~68%、K2O 0.5~5%、Na2O 0.2 ~3%、MgO 0.1 ~2%、CaO 0.4 ~15%、ZrO2 0.1 ~8%、ZnO 0.05 ~5%、TiO2I ~5%、MnO2 2 ~5%、Y2O3 0.2 ~1%。 [0009] The mass percentage of the chemical composition of the glaze is as follows = Al2O3 6 ~ 10%, SiO2 64 ~ 68%, K2O 0.5 ~ 5%, Na2O 0.2 ~ 3%, MgO 0.1 ~ 2%, CaO 0.4 ~ 15%, ZrO2 0.1 ~ 8%, ZnO 0.05 ~ 5%, TiO2I ~ 5%, MnO2 2 ~ 5%, Y2O3 0.2 ~ 1%.

[0010] 上述制备方法制得的红外陶瓷保温杯产品,其特征在于:所述产品的法向全辐射率为0.90~0.95。 [0010] The preparation obtained by the method of infrared ceramic insulation cup, characterized in that: said product is a full normal emissivity of 0.90 to 0.95.

[0011] 本发明采用天然矿物原料和工业纯原料制备了一种远红外陶瓷保温杯,该红外陶瓷保温杯不仅可以对保温杯中的水进行活化,同时又可以改善人体微循环,增强新陈代谢,提高人体免疫能力,具有良好的保健功能,因此具有广阔的市场前景。 [0011] The present invention employs a far infrared ceramic mug pure natural mineral raw materials and industrial raw materials was prepared, the only infrared ceramic mug can be activated for water insulation cup, while they can improve micro-circulation, increase metabolism, improve human immunity, good health function, and therefore has a broad market prospect.

具体实施方式 detailed description

[0012] 实施列一: [0012] Embodiment column by:

一种远红外陶瓷保温杯,按质量百分比称取坯料:龙岩洗泥15%,郴州泥17%,云南砂25%,钾长石20%,麦饭石8%,氧化钛5%,硅酸锆8%,二氧化锰1.2%,氧化钇0.8%,在坯体原料中添加0.2%的三聚磷酸钠和0.5%的水玻璃,混合球磨,调整泥浆比重为1.60g/cm3,泥浆陈腐后,注衆成形获得还体,该还体预先经过素烧,素烧温度为1000°C ; A far-infrared ceramic mug, in percentage by mass weighed blank: Mud LongYan 15%, 17% Chenzhou mud, sand Yunnan 25%, 20% feldspar, stone 8%, 5% titanium oxide, silicic acid after 8% zirconium, 1.2% manganese dioxide, 0.8 percent yttrium oxide, 0.2% of sodium tripolyphosphate and 0.5% sodium silicate, mixed in a ball mill blank material, the adjustment of mud weight 1.60g / cm3, mud stale , all the injection molded body is also obtained, the body further advance after biscuit firing, biscuit firing temperature of 1000 ° C;

按质量百分比称取釉料:钾长石20%,钠长石8%,高岭土5%,石英27.5%,方解石15%,滑石3%,氧化锌1%,氧化钛5%,氧化锰5%,硅酸锆8%,氧化铁1.5%,氧化钇1%,其化学成分的质量百分比为:A1203 8.6%, SiO2 65%, K2O 2.5%、Na2O 1%, MgO 1%, CaO 9%, ZrO2 5%, ZnO 1%、TiO2 2%、MnO2 4%、Y2O3 0.9%,在釉料中添加0.5%的羧甲基纤维素和0.3%的三聚磷酸钠,混合球磨,调整釉料比重为1.58g/cm3,然后在素烧过的陶瓷保温杯内外层上釉、干燥,在1280°C烧成,烧成时间为9h。 Percentage by mass weighed glaze: 20% potash feldspar, albite 8%, 5% kaolin, quartz 27.5%, 15% calcite, talc 3%, 1% zinc oxide, titanium oxide 5%, 5% manganese oxide , 8% zirconium silicate, 1.5% ferric oxide, yttrium oxide, 1% by mass percentage of its chemical composition is: A1203 8.6%, SiO2 65%, K2O 2.5%, Na2O 1%, MgO 1%, CaO 9%, ZrO2 5%, ZnO 1%, TiO2 2%, MnO2 4%, Y2O3 0.9%, 0.5% carboxymethyl cellulose and 0.3% sodium tripolyphosphate in the glaze, ball mill mixing, to adjust a specific gravity of 1.58 glaze g / cm3, and the inner and outer layers of ceramic pigment mug burned glazing, dried, calcined at 1280 ° C, baking time is 9h.

[0013] 将制备好的试样进行远红外发射性能测试,法向全辐射率为0.91。 [0013] The samples were prepared to test the performance of the far-infrared emission, full normal emissivity of 0.91.

[0014] 实施列二: [0014] The two columns:

一种远红外陶瓷保温杯,按质量百分比称取坯料:龙岩洗泥13%、郴州泥16%、云南砂23%、钾长石25%、麦饭石10%、氧化钛5%、硅酸锆6%、二氧化锰1.3%、氧化钇0.7%,在坯体原料中添加0.1%的三聚磷酸钠和0.4%的水玻璃。 A far-infrared ceramic mug, in percentage by mass weighed blank: Mud LongYan 13%, 16% Chenzhou mud, sand Yunnan 23%, 25% feldspar, stone 10%, 5% titanium oxide, silicic acid 6% zirconium, 1.3% manganese dioxide, 0.7 percent yttrium oxide, 0.1% of sodium tripolyphosphate and 0.4% of sodium silicate in the raw material body. 混合球磨,调整泥浆比重为1.62g/cm3,泥衆陈腐后,注衆成形获得还体,该还体预先经过素烧,素烧温度为1000°C ; Mixing milling, the slurry to adjust a specific gravity of 1.62g / cm3, after all stale mud, all the injection molded body is also obtained, the body further advance after biscuit firing, biscuit firing temperature of 1000 ° C;

按质量百分比称取釉料:钾长石35%,钠长石5%,高岭土9%,石英20%,方解石10%,滑石2%,氧化锌3%,氧化钛4%,氧化猛3%,娃酸错7%,氧化铁1.2%,氧化钇0.8%,其化学成分的质量百分比为=Al2O3 7.68%, SiO2 66%、K2O 2.5%、Na2O 1.2%, MgO 0.9%、CaO 6%, ZrO2 5%, ZnO3% ,TiO2 4%, MnO2 3%, Y2O3 0.72%,在釉料中添加0.4%的羧甲基纤维素和0.3%的三聚磷酸钠。 Percentage by mass weighed glaze: 35% potash feldspar, albite 5%, 9% kaolin, 20% quartz, 10% calcite, talc, 2%, 3% zinc oxide, 4% titanium oxide 3% Meng , baby wrong acid 7%, 1.2% ferric oxide, yttrium oxide, 0.8% by mass percentage to the chemical composition = Al2O3 7.68%, SiO2 66%, K2O 2.5%, Na2O 1.2%, MgO 0.9%, CaO 6%, ZrO2 5%, ZnO3%, TiO2 4%, MnO2 3%, Y2O3 0.72%, was added 0.4% carboxymethylcellulose and 0.3% of sodium tripolyphosphate in the glaze. 混合球磨,调整釉料比重在1.60g/cm3,然后在素烧过的陶瓷保温杯内外层上釉、干燥,在1280°C烧成,烧成时间为8h。 Mixing ball mill, adjusted in proportion glaze 1.60g / cm3, and the inner and outer layers of ceramic pigment mug burned glazing, dried, calcined at 1280 ° C, sintering time of 8h.

[0015]将制备好的试样进行远红外发射性能测试,法向全辐射率为0.92。 [0015] The samples were prepared to test the performance of the far-infrared emission, full normal emissivity of 0.92.

[0016] 实施列三: [0016] Embodiment three columns:

一种远红外陶瓷保温杯,按质量百分比称取坯料:龙岩洗泥30%、郴州泥11%、云南砂17%、钾长石28%、麦饭石6%、氧化钛2%、硅酸锆3%、二氧化锰2.3%、氧化钇0.7%,在坯体原料中添加0.2%的三聚磷酸钠和0.7%的水玻璃。 A far-infrared ceramic mug, in percentage by mass weighed blank: Mud LongYan 30%, 11% Chenzhou mud, sand Yunnan 17%, 28% feldspar, stone 6%, 2% titanium oxide, silicic acid 3% zirconium, 2.3% manganese dioxide, 0.7 percent yttrium oxide, 0.2% of sodium tripolyphosphate and 0.7% of sodium silicate in the raw material body. 混合球磨,调整泥浆比重为1.64g/cm3,泥浆陈腐后,注衆成形获得还体,该还体预先经过素烧,素烧温度为1000°c ;按质量百分比称取釉料:钾长石20%,钠长石5%,高岭土13%,石英20%,方解石15.7%,滑石3%,氧化锌4%,氧化钛2%,氧化锰2%,硅酸锆12%,氧化铁3%,氧化钇0.3%,其化学成分的质量百分比为=Al2O3 9%, SiO2 68%,K2O 2.5%,Na2O 2.2%,MgO 1.9%,CaO 6%,ZrO2 1.68%,ZnO 1% , TiO2 4%, MnO2 3.5%, Y2O3 0.22%,在釉料中添加0.4%的羧甲基纤维素和0.3%的三聚磷酸钠。 Mixing milling, the slurry to adjust a specific gravity of 1.64g / cm3, the mud stale, all the injection molded body is also obtained, the body further advance after biscuit firing, biscuit firing temperature of 1000 ° c; weighed mass percentage glaze: Feldspar 20%, 5% albite, 13% kaolin, 20% quartz, calcite 15.7%, talc 3%, 4% zinc oxide, titanium oxide 2%, 2% manganese oxide, zirconium silicate 12%, 3% iron oxide , yttrium oxide 0.3%, the mass percentage of the chemical composition is = Al2O3 9%, SiO2 68%, K2O 2.5%, Na2O 2.2%, MgO 1.9%, CaO 6%, ZrO2 1.68%, ZnO 1%, TiO2 4%, MnO2 3.5%, Y2O3 0.22%, was added 0.4% carboxymethylcellulose and 0.3% of sodium tripolyphosphate in the glaze. 混合球磨,调整釉料比重在1.64g/cm3,然后在素烧过的陶瓷保温杯内外层上釉、干燥,在1280°C烧成,烧成时间为8h。 Mixing ball mill, adjusted in proportion glaze 1.64g / cm3, and the inner and outer layers of ceramic pigment mug burned glazing, dried, calcined at 1280 ° C, sintering time of 8h.

[0017]将制备好的试样进行远红外发射性能测试,法向全辐射率为0.95。 [0017] The samples were prepared to test the performance of the far-infrared emission, full normal emissivity of 0.95.

Claims (6)

  1. 1.一种红外陶瓷保温杯的制备方法,采用矿物原料及化工原料,其坯料和釉料配方的重量百分比组成为: 坯料:龙岩洗泥10~30%、郴州泥10~30%、云南砂15~30%、钾长石15~30%、麦饭石5~10%、氧化钛0.5~5%、硅酸锆2~10%、二氧化锰0.5~3%、氧化钇0.2~1% ; 轴料:钟长石20~40%、纳长石5~15%、高岭土5~15%、石英20~40%、方解石10~30%、滑石I~5%、氧化锌I~5%、氧化钛I~5%、二氧化猛2~5%、娃酸错5~15%、氧化铁I~5%、氧化钇0.2~1% ; 经过坯料和釉料制备、成型、干燥、坯体素烧、施釉、干燥、中温釉烧获得制品,其中坯体素烧温度范围为:700~1100°C,中温釉烧温度为1280°C、烧成时间为8~10h。 1. A method for preparing a ceramic infrared heat insulating cup, the use of mineral raw materials and chemical raw materials, which weight percent, and blank formulation glaze composition as follows: blank: Mud LongYan 10 to 30%, 10 to 30% Chenzhou mud, sand Yunnan 15 to 30%, 15 to 30% feldspar, stone 5 to 10%, 0.5 to 5% of titanium oxide, zirconium silicate 2-10%, 0.5-3% manganese dioxide, yttrium oxide, 0.2 to 1% ; shaft material: bell feldspar 20-40% sodium feldspar 5 to 15% kaolin 5% to 15%, silica 20-40%, calcite 10 to 30% talc the I ~ 5% zinc oxide, I ~ 5% , the I to 5% titanium, 2-5% Meng dioxide, baby acid 5 to 15% error, the I to 5% iron, 0.2 to 1% yttrium oxide; and preparation of the blank through the glaze, molding, drying, blank voxel firing, glazing, dried, the product obtained glaze firing temperature, wherein the green body unglazed temperature range: 700 ~ 1100 ° C, the glaze firing temperature is a temperature of 1280 ° C, sintering time of 8 ~ 10h.
  2. 2.根据权利要求1所述的制备方法,其特征在于:所述坯料的制备工艺为:按坯料配方称量原料混合均匀,加入重量百分比为0.1~0.4%的三聚磷酸钠和0.2~0.8%的水玻璃作为稀释剂,然后装入球磨设备内球磨,出磨泥料比重为1.58~1.65g/cm3,再经陈腐制成坯料。 2. The production method according to claim 1, wherein: said blank is a preparation process: Formulation blanks by mixing of raw materials, was added 0.1 percent by weight to 0.4% sodium tripolyphosphate and 0.2 to 0.8 % of water glass as a diluent, and then loaded into a ball mill ball mill, the mill mud a specific gravity of 1.58 ~ 1.65g / cm3, and then the blank is made stale.
  3. 3.根据权利要求1所述的制备方法,其特征在于:所述釉料的制备工艺为:按釉料配方称量原料合均匀后,加入重量百分比为0.3~0.8%的羧甲基纤维素和0.2~0.6%的三聚磷酸钠作为添加剂,然后装入球磨设备内球磨,出磨釉料比重为1.55~1.65g/cm30 The production method according to claim 1, wherein: said glaze preparation process are as follows: Formulation press glaze raw materials together uniformly, added weight percentage of 0.3 to 0.8% carboxymethylcellulose and 0.2 to 0.6% of sodium tripolyphosphate as an additive, and then loaded into a ball mill ball mill, the grinding of the glaze specific gravity of 1.55 ~ 1.65g / cm30
  4. 4.根据权利要求1所述的制备方法,其特征在于:所述氧化锌、氧化铝、滑石使用前需先经过预烧,煅烧温度为1200°C。 4. The production method according to claim 1, wherein: prior to said zinc oxide, alumina, talc need to use pre-firing, the firing temperature is 1200 ° C.
  5. 5.根据权利要求1所述的制备方法,其特征在于:所述釉料化学成分的质量百分比如下:A1203 6 ~10%、Si02 64 ~68%、K20 0.5 ~5%、Na20 0.2 ~3%、MgO 0.1 ~2%、CaO 0.4 ~15%、ZrO2 0.1 ~8%、ZnO 0.05 ~5%、TiO2 I ~5%、MnO2 2 ~5%、Y2O3 0.2 ~1%。 The production method according to claim 1, wherein: the mass of the chemical composition of the glaze following percentages: A1203 6 ~ 10%, Si02 64 ~ 68%, K20 0.5 ~ 5%, Na20 0.2 ~ 3% , MgO 0.1 ~ 2%, CaO 0.4 ~ 15%, ZrO2 0.1 ~ 8%, ZnO 0.05 ~ 5%, TiO2 I ~ 5%, MnO2 2 ~ 5%, Y2O3 0.2 ~ 1%.
  6. 6.根据权利要求1-5任一所述制备方法制得的红外陶瓷保温杯产品,其特征在于:所述产品的法向全辐射率为0.90~0.95。 According to any one of claims 1-5 prepared by the method of preparing a ceramic mug infrared products, wherein: the product was the normal 0.90 to 0.95 total radiation.
CN 201410088764 2014-03-12 2014-03-12 Preparation method of infrared ceramic vacuum cup and product prepared by same CN103896558B (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105344021A (en) * 2015-11-07 2016-02-24 德化均能手造陶瓷有限公司 Optical wafer for activating blood and dredging collaterals
CN106277788A (en) * 2016-08-23 2017-01-04 宜兴市方卫明均陶艺术研究所 Enamel glaze and preparation method thereof

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1837140A (en) * 2006-03-31 2006-09-27 潮州市波士发陶瓷制作有限公司 Reinforced osseous porcelain and process for producing same
KR20120037293A (en) * 2010-10-11 2012-04-19 명지대학교 산학협력단 Glaze composition for ceramic ware comprising ashes from the excrements of earthworm and preparation method thereof
CN103408328A (en) * 2013-07-31 2013-11-27 蔡焕宜 Ceramic glaze and preparation method thereof
CN103467134A (en) * 2012-06-06 2013-12-25 湖南泰鑫瓷业有限公司 Preparation method of beige high brightness metal glaze
CN103553565A (en) * 2013-10-22 2014-02-05 马仁水 Ceramic Articles and Methods of maifanite

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1837140A (en) * 2006-03-31 2006-09-27 潮州市波士发陶瓷制作有限公司 Reinforced osseous porcelain and process for producing same
KR20120037293A (en) * 2010-10-11 2012-04-19 명지대학교 산학협력단 Glaze composition for ceramic ware comprising ashes from the excrements of earthworm and preparation method thereof
CN103467134A (en) * 2012-06-06 2013-12-25 湖南泰鑫瓷业有限公司 Preparation method of beige high brightness metal glaze
CN103408328A (en) * 2013-07-31 2013-11-27 蔡焕宜 Ceramic glaze and preparation method thereof
CN103553565A (en) * 2013-10-22 2014-02-05 马仁水 Ceramic Articles and Methods of maifanite

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105344021A (en) * 2015-11-07 2016-02-24 德化均能手造陶瓷有限公司 Optical wafer for activating blood and dredging collaterals
CN106277788A (en) * 2016-08-23 2017-01-04 宜兴市方卫明均陶艺术研究所 Enamel glaze and preparation method thereof

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