| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 221 | Compact support system using low aspect ratio composite tensile support bands | US11441130 | 2006-05-26 | US20070087845A1 | 2007-04-19 | Nicholas Mann |
| A support system comprising a number of racetrack-shaped tensile support bands (22) held in tension between a supported article and a supporting article, respective curved end portions of each tensile support band being retained by respective mounting points (30) mounted on respective surfaces of the supported article and the supporting article, respectively. At least one of the tensile support bands is arranged so that the curved end portions lie in a plane substantially parallel to the surface upon which the respective mounting point is mounted; and at least one mounting point is a monolithic mounting point having a curved surface (32) which is complementary to an inner curved surface of an end of the tensile support band. | ||||||
| 222 | Nonwoven binders with high wet/dry tensile strength ratio | US10447009 | 2003-05-28 | US20040242106A1 | 2004-12-02 | John Joseph Rabasco; Ronald Joseph Pangrazi; Richard Henry Bott |
| This invention is directed to an improved nonwoven product comprising a nonwoven web of fibers bonded together with a sufficient amount of binder comprised of a polymer comprised of vinyl acetate, ethylene, and a crosslinking monomer to form a self-sustaining web. The improvement in the nonwoven product resides in the use of a polymer having a crystalline melting point (Tm) ranging from 35 to 90null C., preferably 50 to 80null C.; measured at a heat rate of 20null C./minute. The polymer should have a crystalline heat of fusion (Hf), which typically range from about 2 to about 50 joules per gram and a low glass transition temperature (Tg), e.g., from 10 to null40null C., typically null15 to null35null C. | ||||||
| 223 | Method of producing absorbent sheet with increased wet/dry CD tensile ratio | US11867113 | 2007-10-04 | US07585392B2 | 2009-09-08 | Bruce J. Kokko; Steven L. Edwards |
| A method of making absorbent cellulosic sheet with increased wet/dry CD tensile ratio includes treating the fiber at high consistency with debonder in a pulper, for example. The process enables the use of large amounts of debonder in a wet-press process in order to achieve wet/dry CD tensile ratios of greater than 30%. | ||||||
| 224 | Nonwoven binders with high wet/dry tensile strength ratio | US10830550 | 2004-04-23 | US20050239362A1 | 2005-10-27 | Joel Goldstein; Ronald Pangrazi |
| This invention is directed to an improvement in a crosslinkable vinyl acetate/vinyl versatate based polymeric binder for use in nonwoven applications. The improvement in the binder for nonwoven and, particularly premoistened wipes, resides in a polymer comprised of vinyl acetate and vinyl versatate produced by either of the methods: batch polymerization where polymerized units of an in situ or internal crosslinking (polyolefinically unsaturated) monomer are incorporated into the polymer; or, delayed addition of vinyl versatate where the vinyl versatate is polymerized into the polymer by delayed addition such that vinyl versatate rich polymer segments are formed; and, preferably, polymerized units of a polyolefinically unsaturated monomer are incorporated into the polymer. | ||||||
| 225 | Determining a Size of an Item Based on Comparisons of Dimensional and Stretch Data | US15070077 | 2016-03-15 | US20160196602A1 | 2016-07-07 | Matthew Tyler Wilkinson; Grant B. Fresen; Nicholas B. End; Erich Wolodzko |
| A system for recommending a size of a wearable item implements a method that includes identifying a reference wearable item and a size for the reference wearable item. The system accesses a wearable item database and retrieves a three-dimensional model of the reference wearable item. The system also receives, via a user interface, a functional requirement. The system accesses the wearable item database and identifies set of candidate objects, each of which satisfies the functional requirement. Based on the size of the reference wearable item, the system will determine a size for each of the candidate objects. The system will select at least one of the plurality of candidate objects as a recommended object and presents each recommended object and the size of each recommended object to a user. | ||||||
| 226 | Method of producing absorbent sheet with increased wet/dry CD tensile ratio | US12462136 | 2009-07-30 | US07951266B2 | 2011-05-31 | Bruce J. Kokko; Steven L. Edwards |
| A method of making absorbent cellulosic sheet with increased wet/dry CD tensile ratio includes treating the fiber at high consistency with debonder in a pulper, for example. The process enables the use of large amounts of debonder in a wet-press process in order to achieve wet/dry CD tensile ratios of greater than 30%. | ||||||
| 227 | Substantially proportional drawing die for polymer compositions | US11974619 | 2007-10-15 | US20080111277A1 | 2008-05-15 | Kevin Nichols; Brett Birchmeier; Martin Tusim; Ian Ward; Philip Coates; Phil Caton-Rose; Glen Thompson |
| An inventive solid state drawing die has shaping walls that define a shaping channel and that, in the course of solid state drawing, direct polymer composition along a drawing path. Each cross section of the drawing path (and, hence, polymer composition in the drawing path) is non-circular, substantially proportional to one another, contains a centroid that lies on a substantially straight line parallel to the drawing direction and all cross sectional dimensions are 1.5 millimeters or more. | ||||||
| 228 | Black and white stretching system and method for improving contrast of a picture | US10830400 | 2004-04-23 | US20050031200A1 | 2005-02-10 | Sang-soo Lee; Ho-nam Lee |
| A black and white stretching system and method for improving contrast of a picture is disclosed. The system includes a histogram distribution calculation unit for calculating a histogram distribution of an input signal of a specified unit, a mean calculation unit for calculating a mean level of the input image signal, a slope calculation unit for calculating black and white stretching slopes in association with the mean level, a ratio calculation unit for calculating a ratio of a picture change based on the histogram distribution of the present input image signal and the previous input image signal, a filtering unit for adjusting the black and white stretching slopes corresponding to the ratio of the picture change, and a stretching unit for stretching the input image signal by mapping the adjusted black and white stretching slopes and the input image signal. | ||||||
| 229 | Antirattle structure for a transmission ratio indicator assembly | US34598 | 1979-04-30 | US4213415A | 1980-07-22 | Thomas F. Coha; Marvin L. Owen |
| A transmission ratio indicator assembly has a linear input member and an output member that moves on a constant radius. The input member includes a slide member guided on a flat surface, which slide member has an arm extending normal to the flat surface and into a slot formed in a follower portion of the output member. The follower portion has integral spring arms and is guided in a constant radius recess. The spring arms prevent the follower portion from vibrating in the recess. An indicator is secured to the follower and aligns with the transmission ratio selections imprinted on an indicia surface disposed on the outer wall of the constant radius recess in response to movement of the input member. | ||||||
| 230 | Testing apparatus and method of deriving Young's modulus from tensile stress/strain relationships | EP04029039.7 | 2004-12-08 | EP1541987A2 | 2005-06-15 | Boncan, Virgilio Go; Rogers, Murray J.; Heinold, Thomas; Dillenbeck, Robert L. |
A method of testing and a tester apparatus to determine the axial stress and strain of cements under the temperature and pressures encountered by cement during use in wellbore environments. Using these stress and strain measurements, the Young's Modulus may be established for a material at the encountered temperature and pressure of the wellbore. By combining static tensile strength testing and elasticity measurements of cements, Young's Modulus values for different cement compositions under stresses that are similar to the conditions occurring in an actual wellbore are possible. |
||||||
| 231 | Process for preparing double-wall blow-molded articles having a high stretching ratio and products so obtained | EP91117379.7 | 1991-10-11 | EP0480457B2 | 1998-07-29 | Addeo, Antonio; Biscotti, Aurelio; Cocca, Vincenzo; Pinetti, Lucio |
| 232 | Process for preparing double-wall blow-molded articles having a high stretching ratio and products so obtained | EP91117379.7 | 1991-10-11 | EP0480457B1 | 1995-05-17 | Addeo, Antonio; Biscotti, Aurelio; Cocca, Vincenzo; Pinetti, Lucio |
| 233 | Testing apparatus and method of deriving Young's modulus from tensile stress/strain relationships | EP04029039.7 | 2004-12-08 | EP1541987A3 | 2006-12-27 | Boncan, Virgilio Go; Rogers, Murray J.; Heinold, Thomas; Dillenbeck, Robert L. |
A method of testing and a tester apparatus to determine the axial stress and strain of cements under the temperature and pressures encountered by cement during use in wellbore environments. Using these stress and strain measurements, the Young's Modulus may be established for a material at the encountered temperature and pressure of the wellbore. By combining static tensile strength testing and elasticity measurements of cements, Young's Modulus values for different cement compositions under stresses that are similar to the conditions occurring in an actual wellbore are possible.
|
||||||
| 234 | Process for preparing double-wall blow-molded articles having a high stretching ratio and products so obtained | EP91117379.7 | 1991-10-11 | EP0480457A1 | 1992-04-15 | Addeo, Antonio; Biscotti, Aurelio; Cocca, Vincenzo; Pinetti, Lucio |
A process for preparing double-wall blow-molded articles having a high stretching ratio, which comprises:
|
||||||
| 235 | Dyeing process using microwave at lowered temperature, lowered bath ratio under no tension in shortened time and apparatus therefor | JP14842298 | 1998-05-13 | JPH11100781A | 1999-04-13 | HONG SEOK MIN |
| PROBLEM TO BE SOLVED: To provide a dyeing process and an apparatus therefor that can dye starting yarns or fabrics with good finish, as water, energy and time for the dyeing are saved. SOLUTION: In this dyeing process, water in an amount of about 200 vol.% based on the fabric to be dyed, dispersion dye in tan amount of about 1/1,000 of the fabric to be dyed, and a dispersing in an amount of about 1/100 of the dispersion dye are mixed, stirred and introduced into a dye liquor vessel 13. Then, the fabric to be dyed is immersed in the dye liquor, the fabric is dehydrated so that the dye liquor may remain in the fabric in an amount of about 80 wt.% of the fabric to be dyed. The dehydrated fabric is heated up from room temperature to about 130°C by irradiation with microwaves, then dried at 100°C. The dyeing apparatus is provided with the dyeing liquor tank 13 for soaking the fabric into the dyeing liquor, a press and conveying roller for dehydrating the soaked fabric so that the dyeing liquor may remain in the fabric by about 80 wt.% based on the fabric weight, guide rollers 1-5 for conveying the fabric to be dyed to a dyeing tank 10 and guide rollers 11, 11 for conveying out the dyed fabric from the dyeing tank 10. The dyeing tank 10 is equipped with a microwave oscillator F, a plurality of rollers and a roller rotation devices. COPYRIGHT: (C)1999,JPO | ||||||
| 236 | Manufacture of high-tensile steel plate combining high toughness with low yielding ratio and having <=90% yielding ratio by direct quenching method | JP3160987 | 1987-02-16 | JPS63266023A | 1988-11-02 | TERAJIMA HISAE; KOSEKI TOMOYA; SHIGA CHIAKI |
| PURPOSE: To manufacture a high-tensile steel plate combining high toughness with low yielding ratio by a direct quenching method, by subjecting a low-alloy steel with a specific composition to hot rolling and hardening treatment under specific conditions. CONSTITUTION: A slab of low-alloy steel having a composition which contains, by weight, 0.04W0.14% C, 0.03W0.20% Si, 0.60W1.40% Mn, 0.30W1.20% Cr, 0.30W1.20% Mo, 0.03W0.10% V, 0.02W0.09% Al, 0.0003W0.003% B, and <0.0045% N and in which carbon equivalent represented by equation I is regulated to 0.38W0.65% is heated up to 1,000W1,250°C and hot-rolled into a steel plate. At this time, rolling-finishing temp. is regulated so that it is 780W850 at the steel-plate surface, and then, hardening treatment is applied within 150sec after the conclusion of hot rolling. In this way, the high-tensile steel plate combining high toughness with low yielding ratio and having 70W110kgf/mm 2 class tensile strength and ≤90% yielding ratio can be obtained. COPYRIGHT: (C)1988,JPO&Japio | ||||||
| 237 | Steel plate for low yield ratio thick-walled circular steel pipe having tensile strength of 780 mpa or more, method for manufacturing the same, and low yield ratio thick-walled circular steel pipe having tensile strength of 780 mpa or more | JP2011196551 | 2011-09-08 | JP2013057105A | 2013-03-28 | YAMAGUCHI TETSUO |
| PROBLEM TO BE SOLVED: To provide a steel plate for a circular steel pipe having a thick-wall thickness with a maximum plate thickness of 80 mm, achieving both a high strength of ≥780 MPa and a low yield ratio of ≤90% in strong bending work such as D/t=10-20, and further stably having satisfactory toughness even after worked in the steel pipe.SOLUTION: The steel plate has a prescribed chemical componential composition, has a hardenability index DI of ≥8 inch regulated by a prescribed relational formula, and satisfies the following requirements (A), (B), and (C); wherein (A) bainite has an area% of ≥90 in the microstructure at 1/4 portion in a plate thickness; (B) an average circle equivalent diameter in the regions surrounded by large-angle grain boundaries having an orientation difference of ≥15° is ≤4 μm, in the microstructure at 1/4 portion in the plate thickness; and (C) island martensite having an average circle equivalent diameter of 0.5-3 μm and having a Vickers hardness Hv of ≥700 is included by 3-10 area% in the microstructure at 1/4 portion in the plate thickness. | ||||||
| 238 | Wet-pressed tissue and towel products with elevated CD stretch and low tensile ratios made with a high solids fabric crepe process | US12460124 | 2009-07-14 | US07828931B2 | 2010-11-09 | Steven L. Edwards; Stephen J. McCullough |
| An absorbent sheet of cellulosic fibers includes a mixture of hardwood fibers and softwood fibers arranged in a reticulum having: (i) a plurality of pileated fiber enriched regions of relatively high local basis weight interconnected by way of (ii) a plurality of lower local basis weight-linking regions whose fiber orientation is biased along the machine direction between pileated regions interconnected thereby, wherein the sheet exhibits a % CD stretch which is at least about 2.75 times the dry tensile ratio of the sheet. Tensile ratios of from about 0.4 to about 4 are readily achieved. | ||||||
| 239 | Wet-pressed tissue and towel products with elevated CD stretch and low tensile ratios made with a high solids fabric crepe process | US11104014 | 2005-04-12 | US07588660B2 | 2009-09-15 | Steven L. Edwards; Stephen J. McCullough |
| An absorbent sheet of cellulosic fibers includes a mixture of hardwood fibers and softwood fibers arranged in a reticulum having: (i) a plurality of pileated fiber enriched regions of relatively high local basis weight interconnected by way of (ii) a plurality of lower local basis weight linking regions whose fiber orientation is biased along the machine direction between pileated regions interconnected thereby, wherein the sheet exhibits a % CD stretch which is at least about 2.75 times the dry tensile ratio of the sheet. Tensile ratios of from about 0.4 to about 4 are readily achieved. | ||||||
| 240 | Low yield ratio type high tensile strength steel plate excellent in weld cracking resistance and having >=440n/ mm2 yield ratio and >=590n/mm tensile strength and its production | JP15799195 | 1995-06-23 | JPH093596A | 1997-01-07 | OKANO SHIGEO; TAKESHITA SATOSHI |
| PURPOSE: To produce a low yield ratio type tensile strength steel plate excellent in weld cracking resistance by specifying the compsn. constituted of C, Si, Mn, P, S, Al, Mo, V, Nb and Fe and furthermore specifying the content of ferrite having high hardness. CONSTITUTION: As the one having a compsn. contg., by mass, 0.05 to 0.15% C, 0.05 to 0.50% Si, 0.30 to 1.80% Mn, <=0.015% P, <=0.005% S, 0.005 to 0.10% Al, 0.05 to 1.00% Mo, 0.005 to 0.070% V and 0.006 to 0.040% Nb, furthermore contg. prescribed amounts of Cu, Ni, Cr, B, Ca, Ti and rare earth metals, and the balance Fe with inevitable impurities, and in which PCM=C+Si/30+Mn/20+ Cu/20+Ni/60+Cr/20+Mo/15+V/10+5B<=0.22%, and furthermore, ferrite in which microhardness in 10kg loads is regulated to >=180HV is contained by 10 to 50 vol.%, the steel plate having about <=80% yield ratio, >=440N/mm<2> yield strength and >=590N/mm<2> tensile strength and excellent in weld cracking resistance can be obtd. | ||||||
QQ群二维码
意见反馈
意见反馈