CN1250649C - Composite material of containing granule stuffing and polymer of thermotropic liquid crystal preparation method and application - Google Patents
Composite material of containing granule stuffing and polymer of thermotropic liquid crystal preparation method and application Download PDFInfo
- Publication number
- CN1250649C CN1250649C CN 03126409 CN03126409A CN1250649C CN 1250649 C CN1250649 C CN 1250649C CN 03126409 CN03126409 CN 03126409 CN 03126409 A CN03126409 A CN 03126409A CN 1250649 C CN1250649 C CN 1250649C
- Authority
- CN
- China
- Prior art keywords
- tlcp
- nylon
- granular filler
- liquid crystal
- composite material
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Compositions Of Macromolecular Compounds (AREA)
Abstract
The present invention discloses particle filling material and thermotropic liquid crystal polymer mixed composite material, a preparation method and uses thereof. The composite material comprises components and contents thereof according to weight portions as follows: 30 to 85 portions of nylon 6, 5 to 70 portions of particle filling material and 1 to 20 portions of thermotropic liquid crystal polymers; the particle filling material is hollow glass beads (GB), solid glass beads, silicon dioxide (SiO2) or calcium carbonate (CaCO3), and the mean particle diameter of the filling material is within 1 mu m to 100 mu m; the thermotropic liquid crystal polymer (TLCP) is main chain fragrant copolyester, and the fusion range of the thermotropic liquid crystal polymer is 190 DEG C to 360 DEG C. The composite material is prepared by adopting a melting blending method. The mixed composite material has an excellent flowing property and excellent size stability and has potential superiority in the preparation of large thin wall plastic pieces and plastic pieces which have fine structures.
Description
Technical field
The present invention relates to a kind of hybrid composite of granular filler, specially refer to a kind of hybrid composite that contains spherical rigid particles filler and TLCP.
The invention still further relates to the preparation method of above-mentioned materials.
The invention still further relates to the purposes of above-mentioned materials.
Background technology
Matrix material is a kind of heterogeneous compound system, in compound system can be heterogeneous out-phase also can be homogeneity out-phase.Therefore compound by inhomogeneous composition, out of phase structure, different content and different modes can produce the matrix material that satisfies different purposes.In polymkeric substance, add TLCP (TLCP) and can reduce the melt viscosity of matrix material, and improve the intensity and the modulus of material.
Past mainly concentrates on matrix resin/TLCP binary blends to containing the TLCP composite study, be in-situ composite (In-situ Composites), and matrix resin mostly is the high viscosity performance resins, as polycarbonate, polysulfones, polyether-ether-ketone etc.Purpose is to improve the flowing property of matrix material by adding TLCP, and the processing characteristics of this class high viscosity high performance engineering plastics or special plastic is improved.As far back as nineteen eighty-three, people such as Cogswell (F.N.Cogswell, B.P.Griffin, and J.B.Rose.U.S.Patent 4,386,174 (1983); F.N.Cogswell, B.P.Griffin, and J.B.Rose, U.S.Patent 4,433, and 083 (1984); F.N.Cogswell, B.P.Griffin, and J.B.Rose, U.S.Patent 4,438,236 (1984)) applied for the patent as thermoplastic resin melt-processed auxiliary agent with TLCP.Blizard and Baird (K.G.Blizard, D.G.Baird.Polym.Eng.Sci., 1987,27: 653) when containing the Nylon 66 of TLCP and polycarbonate (PC) system, research finds, add TLCP and make the viscosity ratio protocorm of co-mixing system reduce by 50%, under higher shearing rate even reduce more.People (F.P.La Mantia such as La Mantia, A.Valenza, M.Paci, P.L.Maganini.Polym.Eng.Sci., 1990,30:7) to people (H.Wang such as the research of Nylon 6/TLCP blend stable state rheological behaviour and Chung, K.W.Lee, T.S.Chung.Polym.Adv.Technol., 2000,11:153) discussion to the dynamic rheological property behavior of the Nylon 6 that contains TLCP, Nylon 66 systems shows all that also under the condition that is not less than the TLCP melt temperature, the adding of TLCP makes the viscosity of compound system be reduced to 10%~50% of original matrix.
Report to the research of thermoplastic resin/rigid particles filler/TLCP tertiary blending system is few.1997, people such as He Jiasong (J.He, H.Zhang, Y Wang.Polymer, 1997,38:4279) propose the notion of IN-SITU HYBRID COMPOSITES (In-situ Hybrid Composites) first, and studied form, rheological behaviour and the mechanical property of polyethersulfone/carbon fiber/TLCP (PES/CF/TLCP) ternary hybrid systems.Before this, they (He Jiasong, Zhang Hongzhi, Li Ge, Xu Xiangqing. the polymer journal, 1993,1:115) inquired into the improvement of TLCP to short glass fiber (GF) Reinforced Polypropylene (PP) processibility, structure and performance.The result shows that the adding of TLCP has effectively improved the flowability of material, makes the viscosity of tertiary blending system be lower than the PP/GF compound system.Subsequently, they (He Jiasong, Zhang Hongzhi. Chinese invention patent .ZL 96104860.3; He Jiasong, Wang Yuli. Chinese invention patent, ZL 97100522.2; He Jiasong, Wang Yuli, Chinese invention patent, ZL 97111710.1) be matrix resin with polyethersulfone (PES), polycarbonate (PC) and polyether-ether-ketone (PEEK), studied the performance that mixes co-mixing system that contains staple fibre (glass fibre or carbon fiber) and TLCP.Pisharath and Wong (S.Pisharath, S.C.Wong.Polym.Compos., 2003,24:109) with TLCP as enhancement component and processing aid add by staple fibre strengthen, in the rubber toughened Nylon system, balance screw torque when the adding of finding a small amount of TLCP can make melt blending reduces half, has effectively improved the melt processable of hybrid systems.Recently, people such as Hu (M.W.Lee, X.Hu, C.Y.Yue, L.Li, K.C.Tam, K.Nakayama.J.Appl.Polym.Sci., 2002,86:2070; M.W.Lee, X.Hu, C.Y.Yue, L.Li, K.C.Tam.Compos.Sci.Technol., 2003,63:339; M.W.Lee, X.Hu, L.Li, C.Y.Yue, K.C.Tam, L.Y.Cheong.Compos.Sci.Technol., 2003,63:1921) with silicon-dioxide (SiO
2) stuffing surface modification adds in polypropylene/TLCP (PP/TLCP) compound system after becoming hydrophobicity, reduces the viscosity ratio of TLCP and matrix PP, thereby promotes TLCP to become fibre in ternary system, makes the same SiO that only contains of viscosity of ternary hybrid systems
2Comparing of infill system reduced by 2/3.They have also studied surface treatment (L.Zhang, K.C.Tam, L.H.Gan, C.Y.Yue, Y.C.Lam, X.Hu.J.Appl.Polym.Sci., 2003, SiO 87:1484) and during blend of filler
2Interpolation order (M.W.Lee, X.Hu, L.Li, C.Y.Yue, K.C.Tam.Polym.Int., 2003,52:276) to (PP/SiO
2The influence of)/TLCP tertiary blending system rheological behaviour.Discovery have only when the filler particles precedence partition in the PP phase time, just can not destroy the TLCP microdomain and hinder the TLCP droplet congregating and become fine.Nonetheless, it seems, contain SiO from his result
2The melt viscosity of system (binary or ternary) still is higher than the melt viscosity that only contains TLCP binary system and pure TLCP.
It is generally acknowledged that the bat wool that rigid filled particle especially length-to-diameter ratio is relatively large is sneaked into the melt viscosity that can increase compound system in the polymkeric substance, is unfavorable for the machine-shaping process.People such as He Jiasong (He Jiasong, Zheng Xuejing. Chinese invention patent application .02143127.2) research nylon 6/ staple fibre/TLCP (Nylon 6/GF/TLCP) ternary mix in the co-mixing system between the GF and TLCP mix synergistic effect the time find, in Nylon 6/TLCP two-phase system, add an amount of GF, help to reduce the system melt viscosity on the contrary.Their result shows, the binary system that adds 7%TLCP is compared with matrix, viscosity degradation 40%, and weight consists of the viscosity that viscosity that 65/30/5 Nylon 6/GF/TLCP ternary mixes compound system is lower than arbitrary virgin resin or arbitrary binary blend, promptly be lower than matrix resin Nylon 6, TLCP, the melt viscosity of Nylon 6/TLCP blend and Nylon 6/GF matrix material.Subsequently, their (X.Zheng, B.Zhang, J.Zhang, Y.Xue, J.He.Intern.Polymer Processing, 2003,18:3) find, in polycarbonate/TLCP (PC/TLCP) blend, add an amount of glass fibre and also obtain this kind effect.
Nylon is widely used engineering plastics, has good mechanical performance, thermotolerance, self lubricity, is widely used in fields such as household electrical appliances, automobile.In nylon, add surface smoothness, dimensional stability, scratch resistance and the wearability that spherical rigid filled (as hollow glass micropearl) can improve plastics.People such as Tjong (S.C.Tjong, S.A.Xu, J.Appl.Polym.Sci., 2001, studies show that 81:3231) adds the rigidity that glass microballon can effectively improve infill system in by rubber toughened nylon 66 systems, thereby keeps the rigidity-toughness balance of material.People such as Ou (Y.C.Ou, Z.Z.Yu, Polym.Int.1995,37,113) have inquired into the rheological behaviour of nylon 6/ glass microballon system, think that the interface adhesion between filler-matrix is the important factor that influences the compound system melt viscosity.Their result shows that the compound system melt viscosity that nylon and glass microballon are filled is higher, and processibility remains to be improved.Research to nylon 6/ glass microballon/TLCP tertiary blending system does not appear in the newspapers as yet.
Summary of the invention
The objective of the invention is to overcome the shortcoming of nylon 6 and glass microballon filled nylon-6 system melt fluidity difference, thereby a kind of thermoplastic resin based composite material that contains granular filler and TLCP is provided.
Another object of the present invention provides the preparation method of above-mentioned materials.
The matrix material of granular filler provided by the invention and TLCP, by weight percentage, form by following component and content:
Nylon 630-85
Granular filler 5-70
TLCP 1-20
Described granular filler is hollow glass micropearl (GB), solid glass micro-bead, silicon-dioxide (SiO
2) or lime carbonate (CaCO
3).
The average particulate diameter of described granular filler in the 1-100 mu m range, preferred 1-60 μ m.
Described TLCP is the backbone chain type aromatic copolyesters, fusion range is 190-360 ℃, can be following several commercialization thermic liquid crystalline polymerss, as: the complete fragrant atactic polyester of P-hydroxybenzoic acid/6-hydroxyl-2-naphthoic acid (PHB/HNA) is (as Vectra A900 or Vectra A950, Ticona Co., the U.S.), the complete fragrant atactic polyester of 6-hydroxyl-2-naphthoic acid/terephthalic acid and p-aminophenol (HNA/TA/APO) is (as Vectra B900 or Vectra B950, TiconaCo., the U.S.), the atactic polyester of P-hydroxybenzoic acid/ethylene glycol terephthalate (PHB/PET) is (as LC3000, LC5000, Unitika Co., Japan; Or X7G, Eastman Co., the U.S.), or the atactic polyester of terephthalic acid and quinhydrones etc. (TA/HQ/other monomer) (as HX1000, HX4000, HX6000, HX8000 etc., DuPont Co., the U.S.).
Preparation method provided by the invention carries out according to the following steps: with nylon 6 30-85 parts, hollow glass micropearl 5-70 part, and TLCP 1-20 part, method with melt blending prepares matrix material, and the temperature from charging opening to each section of mouth mould is respectively: 260 ℃ ± 5 ℃, 280 ℃ ± 5 ℃, 280 ℃ ± 5 ℃, 280 ℃ ± 5 ℃.
The nylon 6 composite material of spherical rigid particles filler and TLCP that contains of the present invention is when melt-processed, matrix resin nylon 6 is melt with TLCP, because TLCP has the rheological property of very strong shear shinning, thereby reduced the viscosity of whole matrix material, improved the processing characteristics of matrix material.And spherical rigid particles filler can produce the effect that mixes on the rheology with TLCP, make the nylon 6/ hollow glass micropearl/viscosity of TLCP trielement composite material be lower than the viscosity of arbitrary virgin resin and arbitrary binary blend, promptly be lower than matrix resin nylon 6, TLCP, the melt viscosity of nylon 6/TLCP blend and nylon 6/GB matrix material.This matrix material has excellent flowability energy and dimensional stability, has the potential advantage when the meticulous plastic part of preparation large thin-wall plastic part and structure.
Description of drawings
Fig. 1 is the flow curve of embodiment 1 and comparative example 1 gained material.
Fig. 2 is the flow curve of embodiment 2 and comparative example 2 gained materials.
Fig. 3 is the flow curve of embodiment 3 and comparative example 3 gained materials.
Fig. 4 is the flow curve of embodiment 4 and comparative example 4 gained materials.
Fig. 5 is the flow curve of embodiment 5 and comparative example 5 gained materials.
Fig. 6 is the flow curve of embodiment 6 and comparative example 6 gained materials.
Fig. 7 is the flow curve of embodiment 7 and comparative example 7 gained materials.
Among the figure, N represents nylon 6; GB represents hollow glass micropearl, the specific diameter of numeral glass microballon thereafter, as: diameter is that the hollow glass micropearl of 3 μ m is abbreviated as GB3; VA represents TLCP.
Embodiment
Below in conjunction with embodiment technical scheme of the present invention and effect are further described.But employed concrete grammar, prescription and explanation are not limitation of the present invention.
The present invention is without particularly pointing out explanation place, and material proportion is weight ratio.
Embodiment 1:
Raw material is that nylon 6 (relative viscosity is 3.2), diameter are that (PHB/HNA 73/27 for the hollow glass micropearl of 3 μ m and TLCP, Vectra A950, Ticona Celanese Company, USA) with 84: 5: 11 melt blendings on Haake RC-90 twin screw extruder of weight ratio, the temperature from charging opening to each section of mouth mould is set at 260-280-280-280.Extrude bar cooling back granulation, the gained pellet carries out rheology testing on Goettfert Rheograph 2001 type capillary rheometers.Used capillary inner diameter is 1mm, and length-to-diameter ratio is 30.Experimental temperature is 280 ℃, material preheating 4 minutes.
Comparative example 1:
A) raw material is that nylon 6 (relative viscosity is 3.2) and diameter are the hollow glass micropearl of 3 μ m, and weight ratio is 95: 5, and preparation and test condition are with embodiment 1.
B) the raw material TLCP identical that be nylon 6 (relative viscosity is 3.2) with embodiment 1, weight ratio is 89: 11, preparation and test condition are with embodiment 1.
Above-mentioned three kinds of method gains materials flow varied curves as shown in Figure 1.
Embodiment 2:
The weight ratio of nylon 6, glass microballon and TLCP is 51/38/11, and all the other conditions are with embodiment 1.
Comparative example 2:
A) nylon 6 is 62: 38 with the hollow glass micropearl weight ratio, and all the other conditions are with embodiment 1.
B) nylon 6 is 89: 11 with the TLCP weight ratio, and all the other conditions are with embodiment 1.
Above-mentioned three kinds of method gains materials flow varied curves as shown in Figure 2.
Embodiment 3:
The weight ratio of nylon 6, glass microballon and TLCP is 34: 55: 11, and the specification of hollow glass micro-ball and TLCP is with embodiment 1, and preparation and testing method are with embodiment 1.
Comparative example 3:
A) nylon 6 is 45: 55 with the hollow glass micropearl weight ratio, and all the other conditions are with embodiment 1.
B) nylon 6 is 89: 11 with the TLCP weight ratio, and all the other conditions are with embodiment 1.
Above-mentioned three kinds of method gains materials flow varied curves as shown in Figure 3.
Embodiment 4:
Nylon 6, diameter are that (Ticona Celanese Company is USA) with 59: 30: 11 melt blendings on Haake RC-90 twin screw extruder of weight ratio for PHB/HNA73/27, Vectra A950 for the hollow glass micropearl of 20 μ m and TLCP.Preparation blending condition and rheology testing condition are with embodiment 1.
Comparative example 4:
A) nylon 6 is 70: 30 with the hollow glass micropearl weight ratio, and all the other conditions are with embodiment 4.
B) nylon 6 is 89: 11 with the TLCP weight ratio, and all the other conditions are with embodiment 4.
Above-mentioned three kinds of method gains materials flow varied curves as shown in Figure 4.
Embodiment 5:
Nylon 6, diameter are that (Ticona Celanese Company is USA) with 59: 30: 11 melt blendings on Haake RC-90 twin screw extruder of weight ratio for PHB/HNA73/27, Vectra A950 for the hollow glass micropearl of 40 μ m and TLCP.Preparation method and test condition are with embodiment 1.
Comparative example 5:
A) nylon 6 is 70: 30 with the hollow glass micropearl weight ratio, and all the other conditions are with embodiment 5.
B) nylon 6 is 89: 11 with the TLCP weight ratio, and all the other conditions are with embodiment 5.
Above-mentioned three kinds of method gains materials flow varied curves as shown in Figure 5.
Embodiment 6:
A) nylon 6, diameter are respectively the hollow glass micropearl of 3 μ m and TLCP (PHB/HNA 73/27, Vectra A950, Ticona Celanese Company is USA) with 51: 38: 11 (being equivalent to the GB3 volume content is 23.9%) melt blendings on Haake RC-90 twin screw extruder of weight ratio.Preparation method and rheology testing condition are with embodiment 1.
B) hollow glass micropearl of nylon 6, diameter 20 μ m and TLCP are with weight ratio 59: 30: 11 (being equivalent to the GB20 volume content is 23.9%), and all the other conditions are with embodiment 6.
C) hollow glass micropearl of nylon 6, diameter 40 μ m and TLCP are with weight ratio 59: 30: 11 (being equivalent to the GB40 volume content is 26.4%), and all the other conditions are with embodiment 6.
Comparative example 6:
Nylon 6 and TLCP were with weight ratio 89: 11, and all the other conditions are with embodiment 6.
Above-mentioned four kinds of method gains materials flow varied curves as shown in Figure 6.
Embodiment 7:
Nylon 6, diameter are that (Ticona Celanese Company is USA) with 65: 30: 5 melt blendings on Haake RC-90 twin screw extruder of weight ratio for PHB/HNA73/27, Vectra A950 for the hollow glass micropearl of 3 μ m and TLCP.Blending condition is with embodiment 1.Rheological property with the DSR-200 type dynamic stress parallel-plate rheometer of U.S. Rheometric Scientific company specimen under the high pure nitrogen protection.The parallel plate diameter is 25mm, and the gap is set at 1mm.Experimental temperature is 260 ℃.
Comparative example 7:
Nylon 6 is 70: 30 with the hollow glass micropearl weight ratio, and all the other conditions are with embodiment 7.
Above-mentioned two kinds of method gains materials flow varied curves as shown in Figure 7.
Claims (7)
1, a kind of matrix material that contains granular filler and TLCP, by weight percentage, form by following component and content:
Nylon 6 30-85
Granular filler 5-70
TLCP 1-20
Described granular filler is hollow glass micropearl, solid glass micro-bead, silicon-dioxide or lime carbonate;
The diameter of described granular filler is 1-100 μ m.
2, matrix material according to claim 1 is characterized in that: the diameter of described granular filler is 1-60 μ m.
3, according to the matrix material of claim 1, it is characterized in that: described TLCP is the backbone chain type aromatic copolyesters, and fusion range is 190-360 ℃.
4, according to claim 1 or 3 described matrix materials, it is characterized in that: described TLCP is complete fragrant atactic polyester, 6-hydroxyl-2-naphthoic acid/terephthalic acid, the complete fragrant atactic polyester of p-aminophenol or the atactic polyester of P-hydroxybenzoic acid/ethylene glycol terephthalate of P-hydroxybenzoic acid/6-hydroxyl-2-naphthoic acid.
5, according to claim 1,3 or 4 described matrix materials, it is characterized in that: described TLCP is the complete fragrant atactic polyester of P-hydroxybenzoic acid/6-hydroxyl-2-naphthoic acid.
6, a kind of method for preparing the described matrix material of claim 1, with nylon 6, granular filler and TLCP, with the method preparation of melt blending, the temperature from charging opening to each section of mouth mould is respectively: 260 ℃ ± 5 ℃, 280 ℃ ± 5 ℃, 280 ℃ ± 5 ℃, 280 ℃ ± 5 ℃;
Described granular filler is hollow glass micropearl, solid glass micro-bead, silicon-dioxide or lime carbonate; The diameter of described granular filler is 1-100 μ m.
7, the application of the described matrix material of above-mentioned each claim on plastic part.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 03126409 CN1250649C (en) | 2003-09-27 | 2003-09-27 | Composite material of containing granule stuffing and polymer of thermotropic liquid crystal preparation method and application |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 03126409 CN1250649C (en) | 2003-09-27 | 2003-09-27 | Composite material of containing granule stuffing and polymer of thermotropic liquid crystal preparation method and application |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1600813A CN1600813A (en) | 2005-03-30 |
CN1250649C true CN1250649C (en) | 2006-04-12 |
Family
ID=34658785
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 03126409 Expired - Fee Related CN1250649C (en) | 2003-09-27 | 2003-09-27 | Composite material of containing granule stuffing and polymer of thermotropic liquid crystal preparation method and application |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN1250649C (en) |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100406987C (en) * | 2005-12-27 | 2008-07-30 | 北京科技大学 | Preparation method of polymer dispersed liquid crystal film |
GB2439530B (en) * | 2006-05-26 | 2011-07-13 | Pera Innovation Ltd | Method of and apparatus for producing thermoplastic materials |
CN100465231C (en) * | 2006-08-24 | 2009-03-04 | 华南理工大学 | Heat resistant nylon material containing thormotropic liquid crystal polymer and its preparation method |
CN101195708B (en) * | 2007-12-19 | 2010-08-11 | 华南理工大学 | Reinforcing heat-resisting nylon composite material and method for producing the same |
CN103951816B (en) * | 2014-04-04 | 2016-02-10 | 东华大学 | In-situ polymerization strengthens the preparation method of carbon nanotube/semiaromatic type TLCP matrix material |
CN104448814B (en) * | 2014-11-27 | 2016-05-11 | 湖北洋田塑料制品有限公司 | The high rigidity liquid crystal polymer of a kind of high strength reinforced nylon 66 compounds and preparation method thereof |
-
2003
- 2003-09-27 CN CN 03126409 patent/CN1250649C/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
CN1600813A (en) | 2005-03-30 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN1041740C (en) | Thermoplastic inierpeneirating network structure and method of forming same | |
CN1986639A (en) | Thermosetting resin-base composite material and its preparing | |
CN102549070B (en) | Method for manufacturing polyester composition having improved impact properties | |
US20060079638A1 (en) | Polybutylene terephthalate resin composition | |
CN1155652C (en) | Toughened plastics and its preparing process | |
CN1948379A (en) | Reinforced modified ultrahigh molecular weight polyethylene/polypropylene composite material | |
CN1243848A (en) | Polyester co-mixture with high capacity for air resistance | |
CN1726256A (en) | The consistency of crystallographic thermoplastic material and mineral filler is improved | |
CN101058665A (en) | Polybutylene terephthalate composite material and preparation method thereof | |
CN1187410C (en) | Composite material containing short fibre and thermotropic liquid crystal polymer | |
CN102002233B (en) | Mixture for preparing nylon nano composite material and preparation method of composite material | |
CN1250649C (en) | Composite material of containing granule stuffing and polymer of thermotropic liquid crystal preparation method and application | |
CN1210345C (en) | Polyvinyl chloride reinforcing and tougheness improving modifier and preparation and application thereof | |
CN1305513A (en) | Modifier for improving behavior of bituminous mixtures used in road paving | |
CN101161727A (en) | Polysulfone/thermotropic liquid crystal polymer/rigid filled composite material and preparation method thereof | |
CN1576314A (en) | Polyacetal resin composition | |
CN109054189B (en) | Plant composite fiber filled polypropylene composite material and preparation method thereof | |
CN1563129A (en) | Force-chemic method for preparing composite material of nano inorganic particles/polymer | |
CN1300236C (en) | Mineral/ whisker reinforced polypropylene composition | |
CN1435442A (en) | Tertiary polypropylene/elastomer/inorganic filler composite material and preparing method thereof | |
CN1244633C (en) | Toughened, high-modulus polyacetals | |
CN1152918C (en) | Powder for forming enamelled plastics and its preparing process | |
CN106751095A (en) | Isomerism containing L POSS crosslinking agents is modified to reclaim PS and preparation method thereof | |
CN1153809C (en) | Mother filler of polyolefine and its preparing process | |
CN1203127C (en) | Transparent copmosition containing polycarbonate and a copolymer of methylmethacrylate |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20060412 Termination date: 20180927 |
|
CF01 | Termination of patent right due to non-payment of annual fee |