CN100370068C - Capping three-dimensional fabric, and its knitting method - Google Patents
Capping three-dimensional fabric, and its knitting method Download PDFInfo
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- CN100370068C CN100370068C CNB2006100134302A CN200610013430A CN100370068C CN 100370068 C CN100370068 C CN 100370068C CN B2006100134302 A CNB2006100134302 A CN B2006100134302A CN 200610013430 A CN200610013430 A CN 200610013430A CN 100370068 C CN100370068 C CN 100370068C
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Abstract
The present invention relates to a capping three-dimensional fabric and a weaving method thereof. The fabric has a top part and a body part which are an unstratified three-dimensional integral structure completed by one-time continuous weaving of warp and weft. The present invention has the weaving method that the top part of the capping three-dimensional fabric is firstly woven; the warp with reservation length is designed and prearranged according to the requirements of a fabric structure; the weft with reservation length designed according to the requirements of the fabric structure is orderly inducted in the warp with reservation length by adopting a rectilinear weft induction method for making the warp and the weft interwoven; then, the weft with reservation length is prearranged; the method is circulated until the weaving of the fabric top part is completed; then, the non-interwoven parts of the warp with reservation length and the weft with reservation length of the fabric top part are used as the yarn of the body part of the capping three-dimensional fabric; a weaving or knitting method is adopted for continuously carrying out the weaving of the body part until fabric integral weaving is completed.
Description
Technical field
The present invention relates to a kind of three dimensional fabric technology, specifically is a kind of capping three-dimensional fabric and weaving method thereof that is used for three dimensional fabric composite product supporter, and international monopoly Main classification number plan is Int.Cl
7D03D13/00.
Background technology
Three dimensional fabric has particular structure, has combination properties such as high damage tolerance, shock-resistant, anti-ablation, anti-layering and antifatigue with its reinforced composite materials product.The capping three-dimensional fabric composite product is a kind of three dimensional fabric composite, and its complex structure is different, of a great variety.Capping three-dimensional fabric is the supporter of capping three-dimensional fabric composite product, belongs to special-shaped fabric in three dimensional fabric, and shape is special, and performance requirement height, globality require, and the application in aerospace field is comparatively extensive.This class capping three-dimensional fabric overwhelming majority adopts top and body portion to make respectively earlier at present, the two is connected into the manufacturing or the weaving technology of an integral body again.Metalwork is generally adopted at the top of this composite product, and the existing three dimensional fabric product of body portion also has two-dimensional fabric shop layer part or fiber wrap.The major defect of this structure product is: weight loss effect is poor, and the joint portion mechanical property is bad, and is difficult to control; Also have and adopt two-dimensional fabric directly to spread layer method to make the capping three-dimensional fabric composite product, its major defect is: fabric delamination, globality is poor, shop layer operation poor controllability, the fiber volume fraction uniformity and the uniformity of product each several part are bad, influence the overall performance of member, the mechanical property weakness between tissue layer especially, difficult quality guarantee.Therefore, the prefabricated component of capping three-dimensional fabric composite product is the forming method of capping three-dimensional fabric, and particularly the globality forming method of three-dimensional prefab fabric or weaving method are one of key technologies of capping three-dimensional fabric composite product.Patent documentation " weaving of reinforcement three dimensional fabric " (CN200410014863.0) has been introduced a kind of weaving of reinforcement three dimensional fabric, what solve is the integral weaving problem of non-enclosed shape fabric, is not suitable for weaving of capping three-dimensional fabric of the present invention.
Summary of the invention
The technical problem that quasi-solution of the present invention is determined is, designs a kind of capping three-dimensional fabric and weaving method thereof, and this capping three-dimensional fabric has the top forming, and be structure as a whole with body portion, not stratified, globality is strong, weight loss effect is good, characteristics such as fiber volume fraction uniformity; But the weaving method one-time continuous of this capping three-dimensional fabric is weaved and finished described capping three-dimensional fabric, and it is simple to have the fabric top operational, and is easy with body portion transition, the weaving efficiency height, and adaptability is strong, makes things convenient for characteristics such as practical application.
The technical scheme that the present invention solves described capping three-dimensional fabric technical problem is: design a kind of capping three-dimensional fabric, this fabric has the top and the not stratified three-dimension integrally structure of finishing is weaved by body portion by continuous yarn one-time continuous.
The technical scheme that the present invention solves described capping three-dimensional fabric weaving method technical problem is: the weaving method that designs a kind of capping three-dimensional fabric, this weaving method is at first weaved the top of capping three-dimensional fabric: also preset the length in reserve warp thread earlier by fabric construction requirement design, adopt the linear latitude line stretching method to introduce one by one in the described length in reserve warp thread by the length in reserve weft yarn of fabric construction requirement design, the two is interweaved, reinitialized described length in reserve weft yarn, circulate according to this, weave until the fabric top and finish; Then the part that do not interweave of utilizing described length in reserve warp thread in fabric top and length in reserve weft yarn adopts method woven or braiding to proceed weaving of body portion as the yarn of described capping three-dimensional fabric body portion, finishes until the fabric integral weaving.
Compared with prior art, capping three-dimensional fabric weaving method of the present invention will preset length in reserve warp thread method, three kinds of ingenious combinations of weaving process of linear latitude line stretching method and length in reserve weft yarn method also apply in the top weaving process of capping three-dimensional fabric, can realize that the integral of the prefabricated component capping three-dimensional fabric of special-shaped composite product weaves, having solved prior art fabric seal top portion can't moulding, the interlayer poor mechanical property, problems such as shop formable layer poor controllability, can obtain to greatest extent loss of weight and reinforced fiber globality simultaneously and guarantee fabric quality, and have simple to operate, the efficient height, adaptability is strong, makes things convenient for the good effect of practical application etc.The capping three-dimensional fabric that weaving method of the present invention is weaved out has good integrity, fiber volume fraction is even, and premium properties such as damage tolerance height, shock-resistant, anti-layering and antifatigue can be widely used in Aeronautics and Astronautics, weapon and relevant field such as civilian.
Description of drawings
Fig. 1 is the institutional framework schematic diagram at capping three-dimensional fabric of the present invention top;
Fig. 2 preset by the capping three-dimensional fabric weaving method Woven fabric of the present invention top schematic diagram of length in reserve warp thread earlier;
One of wefting insertion schematic diagram of the linear latitude line stretching method that Fig. 3 is adopted when being capping three-dimensional fabric weaving method Woven fabric of the present invention top;
Two of the wefting insertion schematic diagram of the linear latitude line stretching method that Fig. 4 is adopted when being capping three-dimensional fabric weaving method Woven fabric of the present invention top;
The loom chassis work schematic diagram that Fig. 5 is adopted during for capping three-dimensional fabric weaving method Woven fabric body of the present invention portion;
Fig. 6 is the top of capping three-dimensional fabric weaving method Woven fabric of the present invention and the part schematic diagram that do not interweave of length in reserve warp thread that is preset and length in reserve weft yarn;
Global shape schematic diagram when Fig. 7 weaves cuboid capping three-dimensional fabric top for a kind of embodiment of capping three-dimensional fabric weaving method of the present invention;
Global shape schematic diagram when Fig. 8 weaves cone capping three-dimensional fabric top for the another kind of embodiment of capping three-dimensional fabric weaving method of the present invention;
Global shape schematic diagram when Fig. 9 weaves prismatoid capping three-dimensional fabric top for the third embodiment of capping three-dimensional fabric weaving method of the present invention;
The loom arrangements schematic diagram that Figure 10 is adopted for a kind of embodiment of capping three-dimensional fabric of the present invention top weaving method.
The specific embodiment
Further narrate the present invention below in conjunction with embodiment and accompanying drawing thereof, the present invention is not subjected to the restriction of embodiment:
Capping three-dimensional fabric of the present invention is the general designation of a class capping three-dimensional fabric, comprises cuboid capping three-dimensional fabric (referring to Fig. 7), cone capping three-dimensional fabric (referring to Fig. 8), prismatoid capping three-dimensional fabric (referring to Fig. 9) etc.This capping three-dimensional fabric also often is called special-shaped capping three-dimensional fabric (hereinafter to be referred as fabric or the fabric of binding).
No matter the sort of concrete shape, the fabric that binds of the present invention all comprises top and body portion two parts.Be characterized in that these two parts of fabric have globality and have integraty structure (referring to Fig. 1,6-9) in other words, promptly all fabric 1 surperficial variations place particularly the yarn (warp thread and weft yarn) of top 6 and body portion 7 junctions all be continuously and one, the top 6 of fabric and body portion 7 weave the not stratified overall structure of finishing by described warp thread 2 and weft yarn 3 one-time continuous.Therefore, after the top of bind fabric and prior art of the present invention and portion of body portion two parts are weaved respectively, connect into as a whole fabric fundamental difference again, the structure of its globality not only can significantly improve sole mass and performance, and can significantly to improve with it be the relevant performance and the quality of the composite product of prefabricated component; Compare with the prior art of two-dimensional fabric shop layer part or the fiber wrap fabric that binds, have not stratified overall structure characteristics, can significantly improve himself quality equally is the relevant performance and the quality of the composite product of prefabricated component with performance and with it.
The top structure of the fabric that binds of the present invention is class layer-layer orthogonal angle interlock, can be that document is [referring to Yang Caiyun etc., the composite structural design and the novel weaving technology [J] of 3D angle interlock prefabricated component. Donghua University's journal, 2005,31 (5): 53-58] layer in-layer orthogonal angle interlock, or the layer of belt material warp-layer orthogonal angle interlock, or the layer of belt material latitude-layer orthogonal angle interlock, or belt material is through the layer-layer orthogonal angle interlock of inlaid thread, or layer-layer skew angle interlock, the layer of belt material warp-layer skew angle interlock, or the layer of belt material latitude-layer skew angle interlock, or the loose orthogonal angle interlock of layer-layer, or any in the loose orthogonal angle interlock of the layer-layer of belt material warp.The fabric 1 that embodiment provides is a layer-layer orthogonal angle interlock (referring to Fig. 1), can determine parameters such as fabric layers, thickness of yarn, yarn raw material according to the thickness that product requires in actual the use.Nine weft yarns 3 on the same horizontal plane of fabric 1 constitute one deck weft yarn, and warp thread 2 has not only participated in and the interweaving of ground floor weft yarn 3, and participated in and the interweaving of horizontal adjacent layer weft yarn 3, rely on interweaving of the horizontal adjacent two layers weft yarn 3 of warp thread 2 participations, make each layer warp thread 2 and each layer weft yarn 3 constitute integrally-built described fabric 1.
The body portion structure of the fabric that binds of the present invention both can be the three-dimensional woven fabric structure without limits, also can be the three-dimensional braid structure.The structure of described three-dimensional woven fabric not only can continue to adopt the used structure of top cloth, also can adopt other three-dimensional woven fabric structure; Equally, the structure of described three-dimensional braid can adopt three-dimensional four-way, three-dimensional five to, three-dimensional six any in braided structure.
According to the structural requirement of fabric of the present invention, the present invention has designed the weaving method of described fabric simultaneously.This weaving method is at first weaved the top of capping three-dimensional fabric: preset the length in reserve warp thread earlier by fabric construction requirement design, adopt the linear latitude line stretching method to introduce one by one in the described length in reserve warp thread by the length in reserve weft yarn of fabric construction requirement design, the two is interweaved, reinitialized described length in reserve weft yarn, circulate according to this, weave until the fabric top and finish; Then the part that do not interweave of utilizing described length in reserve warp thread in fabric top and weft yarn is as the yarn of described capping three-dimensional fabric body portion, adopts woven or weaving of body portion carried out in braiding, finishes until the fabric integral weaving.
The concrete technology of weaving method of the present invention is: the line number, columns and the length in reserve that preset earlier warp thread 2 according to the requirement design of the length (or width) at fabric top 6 and body portion 7, by row, be hung in advance on two machines 41,42 (referring to Figure 10) by row, these warp thread promptly are called length in reserve warp thread 2 (hereinafter to be referred as warp thread 2) with the two ends of these warp thread 2; Thereafter adopt the linear latitude line stretching method that weft yarn 3 is incorporated among the described warp thread 2 one by one, make that the two interweaves through weft yarn, preset length in reserve weft yarn 3 simultaneously or reserve the weft yarn 3 of certain-length earlier, the described weft yarn 3 that reserves certain-length is meant that the designing requirement according to the width W (or length L) at fabric top and body portion 7 reserves the weft yarn 3 of suitable length.These weft yarns 3 are called length in reserve weft yarn 3 (hereinafter to be referred as weft yarn 3), have only used its sub-fraction length, remaining part to be used for weaving of follow-up fabric body portion 7 when Woven fabric top 6; After with the two ends of described weft yarn 3 respectively by row, hang on other two machines 43,44 by row and (to be called for short on-hook), so that follow-up wefting insertion referring to Figure 10.Described four looms are relative in twos, be vertically mounted on mutually the fabric that binds around; Described wefting insertion of repetitive cycling and on-hook are operated, and weave until the top 6 of fabric and finish.The characteristics of linear latitude line stretching method of the present invention are whenever to draw the weft yarn that a weft yarn 3 all will reserve Len req when weaving by the Fabric Design requirement is follow-up at its two ends.
Weaving method of the present invention must be begun to weave by the top 6 of fabric, also is the top 6 (referring to Fig. 7-9) of first Woven fabric, and then the body portion 7 of the Woven fabric that continues, and weaves continuously until fabric 1 one piece and finishes.Length in reserve warp thread method, linear latitude line stretching method and length in reserve weft yarn method are preset in the employing of weaving at fabric top 6, rely on the motion of loom to finish interweaving through weft yarn.The detail operations technology of the weaving method of fabric of the present invention is as follows:
1. at first preset the length in reserve warp thread, and on-hook (referring to Fig. 7,9).Calculate line number, columns and the length of required warp thread earlier according to warp count, fabric top (length L or width W) and the number of plies set.Warp thread is pressed row, pressed the parallel straight arrangement of row; Again each root warp thread 2 is hung on the corresponding spindle on two looms, 41,42 loom chassis 4 (referring to Fig. 5, a among the figure, b, c, d and a ', b ', c ', d ' represent two groups of spindles of loom respectively; Referring to Figure 10).
2. adopt linear latitude line stretching method wefting insertion to interweave.The concrete grammar of linear wefting insertion is with fabric outer ground floor opening, and turn left from the right side (or from left to right) introduces weft yarn 31 (referring to Fig. 3,5,10.The direction of arrow among Fig. 3 represents to introduce the direction of weft yarn), simultaneously with the two ends of weft yarn 31 respectively with described other two looms 43,44 chassis 4 on spindle be connected to the hanging i.e. on-hook; With the second layer opening of fabric outer, continue to turn left from the right side (or from left to right) introduces weft yarn 32, on-hook simultaneously again; And then again with the 3rd layer of opening of fabric outer, continue to turn left from the right side (or from left to right) introduces weft yarn 33, on-hook simultaneously, and by that analogy, ecto-entad is introduced weft yarn 3 successively, until the inner surface ground floor of the fabric 1 of casting off.
The spindle row that the rows of warp thread 2 that can see fabric exterior are connected are defined as long line, as spindle a, b, c, the row at d place (referring to Fig. 3,5) are defined as short row with its another vertically adjacent row spindle, i.e. the row that can see of inner surface are as a ', b ', c ', the row at d ' place.Length row spindle is carried out relative length travel, be that 8 (referring to Fig. 5) vertically move 2 ingot positions to long line spindle warp thread towards the fabric inner surface along track by fabric appearance, short row spindle warp thread vertically moves 2 ingot positions to fabric exterior along track 8 by the fabric inner surface, both relative displacement distances are the spacing of 4 spindles, and the position after the displacement as shown in Figure 4; At this moment, a, b, c, the row at d place become short row, and a ', b ', c ', the row at d ' place become long line.Adopt described linear latitude line stretching method to introduce weft yarn again, be about to the ground floor opening of fabric outer, (or turn left from the right side) introduces weft yarn 31 (referring to Fig. 4), on-hook simultaneously from left to right; Again with the second layer opening of fabric outer, (or turn left from the right side) introduces weft yarn 32, on-hook simultaneously from left to right; And then with the 3rd layer of opening of fabric outer, (or turn left from the right side) introduces weft yarn 33 from left to right, on-hook simultaneously, and by that analogy, ecto-entad is introduced the inner surface ground floor of weft yarn 3 until the fabric of casting off successively.
3. repeat described the 2nd step, weave up to fabric top 6 and finish, promptly the physical dimension of institute's woven fabric (length L and width W) satisfies till the requirement at fabric top 6.
4. continue the body portion of Woven fabric, finish integral fabric.With described preset length in reserve warp thread method, linear latitude line stretching method and length in reserve weft yarn method and weave out the fabric top 6 (referring to Fig. 6) of the warp thread 2 that leaves Len req and weft yarn 2 after, with the warp thread 2 of these fabric top 6 design lengths that four direction is reserved (length that does not interweave at the fabric top) and weft yarn 3 all as the follow-up yarn of weaving body portion 7, adopt existing three-dimensional woven technology to continue the body portion 7 of Woven fabric, finish until whole fabric 1 integral weaving.
Should be noted that weaving method of the present invention both had been applicable to woven capping three-dimensional fabric, also was applicable to the capping three-dimensional fabric of braiding.For woven capping three-dimensional fabric, after having weaved described fabric top, the described warp thread that reserves design length and the weft yarn of not interweaving at the fabric top is then all as the follow-up warp thread of weaving this fabric body portion; And for the capping three-dimensional fabric of braiding, the described warp thread that reserves design length and the weft yarn of not interweaving at the fabric top is then all as a follow-up knitting yarn and a yarn of weaving this fabric body portion.Woven or the braiding of fabric body portion all can be adopted prior art.
The problem of weaving of weaving the closed shape fabric of genus of fabric body portion 7.Body of the present invention portion 7 is generalized concepts, comprise cuboid capping three-dimensional fabric rectangular top with lower part (referring to Fig. 7), cone capping three-dimensional fabric tip with lower part (referring to Fig. 8), prismatoid capping three-dimensional fabric rectangular top with lower part (referring to Fig. 9) etc.Correspondingly, top 6 of the present invention also is a specific notion, and it is that the solid top that only refers to capping three-dimensional fabric utilizes weaving method of the present invention institute woven that part of.It can be the top of capping three-dimensional fabric solid, as the rectangular top of cuboid capping three-dimensional fabric, the rectangular top of prismatoid capping three-dimensional fabric etc.; The sub-fraction that also can not have the capping three-dimensional fabric head of top and body portion solid boundary is as cone capping three-dimensional fabric ogival (referring to Fig. 8).The present invention abbreviates the top 6 of described fabric as for sake of convenience without exception.
The fabric that weaving method of the present invention is weaved out, has good whole, yarn in particularly variation place of fabric face (as change place of two-part junction in fabric top and body portion or weaving method etc.) all is continuous, whole, is that one-time continuous is weaved and finished; Fabric is an one, and is not stratified, thereby uses the composite of this fabric to have premium properties such as good integrity, damage tolerance height, shock-resistant, anti-layering and antifatigue.
The present invention does not address part and is applicable to prior art.
Provide specific embodiments of the invention below.
Embodiment 1
Adopt weaving method of the present invention to weave cuboid capping three-dimensional fabric (referring to Fig. 7).
The top 6 of cuboid capping three-dimensional fabric is a rectangle, and the cross section of body portion 7 also is a rectangle.The top 6 of Woven fabric at first.Weaving of top 6 from presetting length in reserve warp thread 2, if warp count is 80 pieces/layer/10cm, top 6 width W=100mm, top 6 length L=120mm, body portion 7 length L '=180mm, fabric layers N=4 layer, as calculated the line number of required warp thread 2 is 4, columns is 80, and total warp thread radical is 320, and required warp thread 2 length are 180 * 2+120=480mm, required weft yarn 3 length are 180 * 2+100=460mm, 320 warp thread 2 are divided into 4 row, 80 row, parallel straight arrangement (referring to Fig. 2), the two ends with each root warp thread 2 hang over loom chassis 41 again, on the corresponding spindle on 42 (referring to Figure 10).Then adopt the linear latitude line stretching method to introduce weft yarn 3, simultaneously the two ends of weft yarn 3 are linked to each other with spindle on other two loom chassis 43,44 respectively.Then after length row spindle being carried out relative length travel, continue to adopt linear latitude line stretching method wefting insertion, simultaneously the two ends of weft yarn 3 are linked to each other with spindle on other two loom chassis 43,44 respectively.So circulate repeatedly, till fabric length reaches design top length 120mm.Woven fabric body portion 7 then.The yarn (warp thread 2 and weft yarn 3) that leaves with the top cloth four direction is as warp thread (for for the body portion of three-dimensional woven fabric structure) or as knitting yarn and axle yarn (for the body portion of three-dimensional braid structure), the body portion 7 that adopts existing three-dimensional woven technology can continue Woven fabric weaves continuously until whole fabric 1 and to finish.
Adopt weaving method of the present invention to weave cone capping three-dimensional fabric (referring to Fig. 8,10).
The cone capping three-dimensional fabric does not exist top 6 and body portion 7 in theory, but can be with than the circular cone tip (top regional area) of small size 5mm for example
2A fritter area regard the top 6 of cone capping three-dimensional fabric as.At first the Woven fabric top 6.Weaving of fabric top equally from presetting length in reserve warp thread 2, if warp thread 2 density are 120 pieces/layer/10cm, top 6 width W=5mm, top 6 length L=5mm, body portion 7 length L '=250mm, fabric layers is 12 layers, as calculated the line number of required warp thread 2 is 12, columns is 6, and total warp thread radical is 72, and required warp thread 2 length are 250 * 2+5=505mm, required weft yarn 3 length are 250 * 2+5=505mm, with 72 long for the warp thread 2 of 505mm be divided into 12 the row, 6 row, parallel straight arrangement is referring to Fig. 2, two ends with each root warp thread 2 hang over loom chassis 41 again, on the corresponding spindle on 42, be on-hook, then adopt the linear latitude line stretching method to introduce weft yarn, on-hook simultaneously.Then after length row spindle being carried out relative length travel, continue to adopt linear latitude line stretching method wefting insertion, on-hook simultaneously.So circulate repeatedly, till fabric length reaches top 6 length 5mm.With the yarn of the uniform four direction length in reserve of top cloth as warp thread (for for the body portion of three-dimensional woven fabric structure) or as knitting yarn and axle yarn (for the body portion of three-dimensional braid structure), the body portion 7 that adopts existing three-dimensional woven technology can continue Woven fabric weaves continuously until whole fabric 1 and to finish.
Adopt weaving method of the present invention to weave prismatoid capping three-dimensional fabric (referring to Fig. 9).
Bind top 6 weaving method of three-dimensional trapezoidal fabric of prismatoid are same as the top weaving method of embodiment 1; The weaving method of its body portion 7 is same as the body portion weaving method of embodiment 2.Concrete parameter can be identical or different with embodiment 1 or 2 by fabric requirement design.
Claims (1)
1. the weaving method of a capping three-dimensional fabric, this weaving method is at first weaved the top of capping three-dimensional fabric: also preset the length in reserve warp thread earlier by fabric construction requirement design, adopt the linear latitude line stretching method to introduce one by one in the described length in reserve warp thread by the length in reserve weft yarn of fabric construction requirement design, the two is interweaved, reinitialized described length in reserve weft yarn, circulate according to this, weave until the fabric top and finish; Then the part that do not interweave of utilizing described length in reserve warp thread of fabric napex and length in reserve weft yarn adopts method woven or braiding to proceed weaving of body portion as the yarn of described capping three-dimensional fabric body portion, finishes until the fabric integral weaving.
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH09157993A (en) * | 1995-12-01 | 1997-06-17 | Nippon Oil Co Ltd | Three-dimensional woven fabric having tapered part |
CN1171462A (en) * | 1996-07-24 | 1998-01-28 | 天津纺织工学院 | Braiding machine for 3-D large fabrics |
JP2000328392A (en) * | 1999-05-20 | 2000-11-28 | Toyota Autom Loom Works Ltd | Three-dimensional fiber structure |
CN1570233A (en) * | 2004-05-10 | 2005-01-26 | 南京玻璃纤维研究设计院有限责任公司 | Process for weaving reinforced three dimensional fabrics |
CN1570234A (en) * | 2004-05-10 | 2005-01-26 | 南京玻璃纤维研究设计院有限责任公司 | Process for weaving three-dimensional fabrics with special-shaped cross-section and special-purpose heald wire |
-
2006
- 2006-04-04 CN CNB2006100134302A patent/CN100370068C/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH09157993A (en) * | 1995-12-01 | 1997-06-17 | Nippon Oil Co Ltd | Three-dimensional woven fabric having tapered part |
CN1171462A (en) * | 1996-07-24 | 1998-01-28 | 天津纺织工学院 | Braiding machine for 3-D large fabrics |
JP2000328392A (en) * | 1999-05-20 | 2000-11-28 | Toyota Autom Loom Works Ltd | Three-dimensional fiber structure |
CN1570233A (en) * | 2004-05-10 | 2005-01-26 | 南京玻璃纤维研究设计院有限责任公司 | Process for weaving reinforced three dimensional fabrics |
CN1570234A (en) * | 2004-05-10 | 2005-01-26 | 南京玻璃纤维研究设计院有限责任公司 | Process for weaving three-dimensional fabrics with special-shaped cross-section and special-purpose heald wire |
Non-Patent Citations (4)
Title |
---|
3D立体机织物机器复合材料. 祝成炎.丝绸,第1期. 2005 * |
三维机织物的性能特征与常规设计. 谈蔚.国外丝绸,第6期. 2003 * |
角度联锁三维机织物的设计与生产. 卢士艳,聂建斌.棉纺织技术,第33卷第2期. 2005 * |
非平面状3D结构织物及其织造技术综述. 祝成炎.浙江工程学院学报,第17卷第2期. 2000 * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102041635A (en) * | 2010-12-24 | 2011-05-04 | 河南科技大学 | Three-dimensional woven material based on space group P* |
CN102041635B (en) * | 2010-12-24 | 2013-09-18 | 河南科技大学 | Three-dimensional woven material based on space group P* |
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