| mach-1 | 关节诱导的人膝关节软骨浅表区域软骨细胞的反应-剪切和滑动的影响文献,articulation-induced responses of superficial zone chondrocytes in human knee articular cartilage-effects of shear and sliding | biomomentum | 李先生 |
| Mach-1 mechanical tester | 使用biomomentum mach-1 mechanical tester,mach-1 – automated indentation mapping (ma056-sop01-d v2) sim s and quenneville e biomomentum inc. laval (qc), canada, effective date: april 7th, 2015 purpose: this procedure describes a standard method to realize an automated indentation mapping over the surface of a sample using the mach-1 mechanical tester (model v500css or v500csst, with software add-on for automated indentation... read more ma056-sop01-d v2 mach-1-automated indentation mapping.pdf mach-automated thickness mapping of an articular surface (ma056-sop02-d v2) sim s and quenneville e biomomentum inc. laval (qc), canada, effective date: april 7th, 2015 purpose: this procedure describes a standard method to realize an automated thickness mapping over the non-planar surface of articular cartilage using the mach-1 mechanical tester (model v500css or v500csst, with software add-on for... read more ma056-sop02-d v2 mach-1-automated thickness mapping of an articular surface.pdf mach-1-unconfined compression of an articular cartilage osteochondral core (ma056-sop03-d v2) sim s and quenneville e biomomentum inc. laval (qc), canada, effective date: april 7th, 2015 purpose: this procedure describes a standard method to realize unconfined compression on an osteochondral core using the mach-1 mechanical tester. scope: this procedure can be used for the ex... read more ma056-sop03-d v2 mach-1-unconfined compression of an articular cartilage osteochondral core.pdf mach-1-dynamic mechanical testing (ma056-sop04-d v1) hadjab i and quenneville e biomomentum inc. laval (qc), canada, effective date: december 3rd, 2014 purpose this document describes a standard method to assess the frequency behavior of the dynamic mechanical properties of material through the complex young's (e*) or shear (g*) modulus using the mach-1 mechanical tester.... read more ma056-sop04-d v1 mach-1-dynamic mechanical testing.pdf mach-1-unconfined compression of a disk (ma056-sop05-d v1) sim s and quenneville e biomomentum inc. laval (qc), canada, effective date: april 14th, 2015 purpose this procedure describes a standard method to realize unconfined compression on a disk-shaped sample using the mach-1tm mechanical tester. scope this procedure can be... read more ma056-sop05-d v1 mach-1-unconfined compression of a disk.pdf mach-1-confined compression of a cartilage disk (ma056-sop06-d v3) sim s and quenneville e biomomentum inc. laval (qc), canada, effective date: july 27th, 2017 purpose this procedure describes a standard method to realize confined compression of a cartilage disk using the mach-1tm mechanical tester. scope this procedure can be... read more ma056-sop06-d v3 mach-1-confined compression of a cartilage disk.pdf mach-1-shear testing on a cartilage disk or an osteochondral core (ma056-sop07-d v2) tessier j and quenneville e biomomentum inc. laval (qc), canada, effective date: august 25th, 2015 purpose this procedure describes a standard method to realize a planar or a torsion shear test on an articular cartilage disk or an osteochondral core using the mach-1tm mechanical tester. read more ma056-sop07-d v2 mach-1-shear testing on a cartilage disk or an osteochondral core.pdf mach-1-friction testing on a cartilage disk or an osteochondral core (ma056-sop08-d v2) chartrand a and quenneville e biomomentum inc. laval (qc), canada, effective date: august 24th, 2015 purpose this procedure describes a standard method to realize a friction test on a cartilage disk or an osteochondral core using the mach-1 tm mechanical tester. read more ma056-sop08-d v2 mach-1-friction testing on a cartilage disk or an osteochondral core.pdf mach-1 extraction and preparation of cartilage disks and osteochondral cores from an articular surface (ma056-sop09-d v1) sim s and quenneville e biomomentum inc. laval (qc), canada, effective date: august 25th, 2015 purpose this procedure describes a standard method to extract and prepare cartilage disks and osteochondral cores from an articular surface. scope this procedure can be used for the... read more ma056-sop09-d v1 mach-1-extraction and preparation of cartilage disks and osteochondral cores from an articular surface.pdf mach-1-extraction of articular surfaces from a closed stifle joint in large animal species (ma056-sop10-d v1) sim s and quenneville e biomomentum inc. laval (qc), canada, effective date: february 1st, 2016 purpose this procedure describes a standard method to extract articular surface from a closed stifle joint in large animals. scope this procedure can be used for the stifle joint of large... read more ma056-sop10-d v1 mach-1-extraction of articular surfaces from a closed stifle joint in large animal species.pdf mach-1-3-point or 4-point bending test (ma056-sop11-d v2) sim s and quenneville e biomomentum inc. laval (qc), canada, effective date: march 9th, 2016 purpose this procedure describes a standard method to realize a flexural (3-point and 4-point) bend test on a material sample using the mach-1 mechanical tester. scope this procedure can... read more ma056-sop11-d v2 mach-1-3-point or 4-point bending test.pdf mach-1 analysis-extraction of elastic model parameters following an automated indentation mapping (sw186-sop01-d v1) sim s and quenneville e biomomentum inc. laval (qc), canada, effective date: april 17th, 2015 purpose this procedure describes a method to extract elastic model parameters (instantaneous modulus, which is referred as the young's modulus in mach-1 analysis, and shear modulus) from mach-1 files generated during an automated... read more sw186-sop01-d v1 mach-1 analysis-extraction of elastic model parameters following an automated indentation mapping.pdf mach-1 analysis-extraction of thickness values following automated thickness mapping of an articular surface (sw186-sop02-d v1) sim s, lavoie jf and quenneville e biomomentum inc. laval (qc), canada, effective date: april 22th, 2015 purpose this procedure describes a method to extract the thickness of cartilage from mach-1 files generated during an automated thickness mapping of an articular surface (as per ma056-sop02-d). it also describes the creation of a... read more sw186-sop02-d v1 mach-1 analysis-extraction of thickness values following automated thickness mapping of an articular surface.pdf mach-1 analysis-extraction of mechanical parameters following unconfined compression (sw186-sop03-d v1) sim s biomomentum inc. laval (qc), canada, effective date: april 15th, 2015 purpose this procedure describes a method to extract mechanical parameters from mach-1 result files generated during an unconfined compression of a sample (e.g. an osteochondral core (as per ma056-sop03-d) or a disk (as per... read more sw186-sop03-d v1 mach-1 analysis-extraction of mechanical parameters following unconfined compression.pdf mach-1 analysis-extraction of the complex modulus components following dynamic mechanical testing (sw186-sop04-d v1) hadjab i and quenneville e biomomentum inc. laval (qc), canada, effective date: december 3rd, 2014 purpose this procedure describes a method for the extraction of the complex modulus components (young's (e' and e”) and shear (g' and g”) modulus) following dynamic mechanical testing performed as per... read more sw186-sop04-d%20v1%20mach-1%20analysis%20-%20extraction%20of%20the%20complex%20modulus%20components%20following%20dynamic%20mechanical%20testing.pdf mach-1 analysis-extraction of mechanical parameters following confined compression (sw186-sop05-d v2) lavallée ap and quenneville e biomomentum inc. laval (qc), canada, effective date: august 24th, 2015 purpose this procedure describes a standard method to extract mechanical parameters from a mach-1 result file generated during confined compression of a cartilage disk perform as per ma056-sop06-d. scope this... read more sw186-sop05-d v2 mach-1 analysis-extraction of mechanical parameters following confined compression.pdf mach-1 analysis-extraction of mechanical parameters following shear testing on a cartilage disk or an osteochondral core (sw186-sop06-d v1) lavallée ap biomomentum inc. laval (qc), canada, effective date: august 19th, 2015 purpose this procedure describes a method to extract mechanical parameters from mach-1 result files generated following shear testing on a cartilage disk or an osteochondral core as per ma056-sop07-d. read more sw186-sop06-d v1 mach-1 analysis-extraction of mechanical parameters following shear testing on a cartilage disk or an osteochondral core.pdf mach-1 analysis-extraction of mechanical parameters following friction testing on a cartilage disk or an osteochondral core (sw186-sop07-d v2) chartrand a and quenneville e biomomentum inc. laval (qc), canada, effective date: august 24h, 2015 purpose this procedure describes a matlab-based method to extract mechanical parameters from the mach-1 result files generated following friction testing on a cartilage disk or an osteochondral core as per... read more sw186-sop07-d v2 mach-1 analysis-extraction of mechanical parameters following friction testing on a cartilage disk or an osteochondral core.pdf mach-1 analysis-extraction of mechanical parameters following bending test (sw186-sop08-d v2) sim s biomomentum inc. laval (qc), canada, effective date: march 9th, 2016 purpose this procedure describes a method for the extraction of mechanical parameters such as the modulus of elasticity in bending (ef ) and the maximum flexural strength (?f ) following a flexural (3-point and 4-point bend) test... read more sw186-sop08-d v2 mach-1 analysis-extraction of mechanical parameters following bending test.pdf mach-1-hardness testing (ma056-sop12-d v1) gilbert n and quenneville e biomomentum inc. laval (qc), canada, effective date: december 9th, 2016 purpose: this procedure describes a standard method to realize an indentation hardness test on a material sample using the mach-1 mechanical tester. scope: this procedure can be applied on any type of... read more ma056-sop12-d v1 mach-1-hardness testing.pdf mach-1-lap shear testing (ma056-sop13-d v2) gilbert n and quenneville e biomomentum inc. laval (qc), canada, effective date: december 19th, 2016 purpose: this procedure describes a standard method to realize a lap shear test on an adhesive between two substrates using the mach-1 mechanical tester. scope: this procedure can be used for lap shear adhesion testing.... read more ma056-sop13-d v2 mach-1-lap shear testing.pdf mach-1 analysis-extraction of mechanical parameters following lap shear test (sw186-sop09-d v2) gilbert n and quenneville e biomomentum inc. laval (qc), canada, effective date: december 19th, 2016. purpose this procedure describes a method to extract mechanical parameters from mach-1 result files generated following lap shear testing on an adhesive between two substrates as per ma056-sop13-d. read more sw186-sop09-d v2 mach-1 analysis-extraction of mechanical parameters following lap shear test.pdf mach-1-flexion testing of needle-shaped samples (ma056-sop14-d v2) gilbert n and quenneville e biomomentum inc. laval (qc), canada, effective date: 26jan2018 purpose this procedure describes a standard method of performing a flexural bend test on a needle-shaped sample with a protruding head using the mach-1tm mechanical tester. read more ma056-sop14-d v2 mach-1-flexion testing of needle-shaped samples.pdf mach 1 analysis-extraction of mechanical parameters following flexion testing of needle-shaped samples (sw186-sop10-d v2) gilbert n and quenneville e biomomentum inc. laval (qc), canada, effective date: 16jan2018 purpose this procedure describes a standard method to extract the following mechanical parameters from a flexural bend test on a needle-shaped sample with a protruding head using the mach-1tm mechanical tester:... read more sw186-sop10-d v2 mach-1 analysis-extraction of mechanical parameters following flexion testing of needle-shaped samples.pdf indentation and thickness mapping of articular surfaces through manual positioning (protocol template aaax1 v1) biomomentum inc. laval (qc), canada, effective date: december 6th, 2016. purpose | biomomentum | 李先生 |
| 内心哪个 | microfluidic polymer chips straight channel chips – microscopy slide format straight channel chips with one channel – fluidic 268 straight channel chips with four parallel channels – fluidic 138 straight channel chips with four parallel channels – fluidic 143 straight channel chips with four parallel channels – fluidic 144 straight channel chips with four parallel channels – fluidic 145 straight channel chips with four parallel channels – fluidic 156 straight channel chips with four parallel channels – fluidic 180 straight channel chips with eight parallel channels – fluidic 157 straight channel chips with eight parallel channels – fluidic 431 straight channel chips with 16 parallel channels – fluidic 142 straight channel chips with 16 parallel channels – fluidic 152 straight channel chips – microtiter plate format straight channel chips – 64 channel plate – fluidic 102 straight channel chips – 96 channel plate – fluidic 600 straight channel chips – 96 channel plate – fluidic 627 straight channel chips with waste chamber straight channel chips with waste chamber – fluidic 95 straight channel chips with waste chamber – fluidic 272 cross-shaped channel chips cross-shaped channel chips – fluidic 82 cross-shaped channel chips – fluidic 106 cross-shaped channel chips – fluidic 166 cross-shaped channel chips – fluidic 201 cross-shaped channel chips – fluidic 202 cross-shaped channel chips – fluidic 394 cross-shaped channel chips – fluidic 395 cross-shaped channel chips – fluidic 189 cross-shaped channel chips – fluidic 160 cross-shaped channel chips – fluidic 161 cross-shaped channel chips with electrodes: contact mode cross-shaped channel chips with electrodes: non-contact mode h-shaped channel chips h-shaped channel chips – fluidic 164 sample preparation & reaction cavity chips rhombic chamber chip ep1 rhombic chamber chips ep1 – fluidic 221 rhombic chamber chips ep1 – fluidic 172 rhombic chamber chips ep1 – fluidic 194 rhombic chamber chips ep1 – fluidic 844 rhombic chamber chips ep1 – fluidic 845 rhombic chamber chip ep2 rhombic chamber chips ep2 – fluidic 132 rhombic chamber chips ep2 – fluidic 439 rhombic chamber chips ep2 – fluidic 131 rhombic chamber chips ep2 – fluidic 133 rhombic chamber chips ep2 – fluidic 134 reaction chamber chips reaction chamber chips – fluidic 843 reaction chamber chips – fluidic 750 reaction chamber chips – fluidic 561 reaction chamber chips – fluidic 558 reaction chamber chips – fluidic 559 reaction chamber chips – fluidic 478 reaction chamber chips – fluidic 584 reaction chamber chips – fluidic 585 reaction chamber chips – fluidic 556 reaction chamber chips – fluidic 560 reaction chamber chips – fluidic 557 reaction chamber chips – fluidic 842 reaction chamber chips – fluidic 753 reaction chamber chips – fluidic 620 reaction chamber chips – fluidic 621 reaction chamber chips – fluidic 625 reaction chamber chips – fluidic 622 pcr chamber chips with dead-end air reservoir pcr chamber chips with dead-end air reservoir – fluidic 675 pcr chamber chips with dead-end air reservoir – fluidic 683 droplet generator chips droplet generator chips – one channel design – fluidic 162 droplet generator chips – one channel design – fluidic 163 droplet generator chips – multi channel design – fluidic 285 droplet generator chips – multi channel design – fluidic 440 droplet generator chips – three elements on one chip – fluidic 536 droplet generator chips – four elements on one chip – fluidic 537 droplet generation and storage chips – fluidic 488 droplet generation and storage chips – fluidic 719 field-flow fractionation chips field-flow fractionation chips – fluidic 120 field-flow fractionation chips – fluidic 159 meander & continuous-flow pcr chips meander & continuous-flow pcr chips – fluidic 47 meander & continuous-flow pcr chips – fluidic 65 meander & continuous-flow pcr chips – fluidic 243 meander & continuous-flow pcr chips – fluidic 708 titer plates – microscopy slide format titer plates microscopy slide format – fluidic 18 titer plates microscopy slide format – fluidic 141 titer plates microscopy slide format – fluidic 383 membrane chips membrane chips – fluidic 168 membrane chips – fluidic 200 membrane chips – fluidic 535 membrane chips – fluidic 783 membrane chips – fluidic 219 membrane chips – fluidic 398 membrane chips – fluidic 480 membrane chips – fluidic 568 membrane chips – fluidic 653 membrane chips – fluidic 694 membrane chips – fluidic 747 membrane chips – fluidic 846 weir-filter chips weir-filter chips – fluidic 220 micro mixer micro mixer – fluidic 186 micro mixer – fluidic 187 micro mixer – fluidic 533 micro mixer – fluidic 640 micro mixer – fluidic 641 micro mixer – fluidic 642 micro mixer – fluidic 658 micro mixer – fluidic 1079 micro mixer – fluidic 286 particle & cell sorting chips particle & cell sorting chips – fluidic 283 particle & cell sorting chips – fluidic 1102 particle & cell sorting chips – fluidic 381 particle & cell sorting chips – fluidic 386 particle & cell sorting chips – fluidic 382 pillar chips pillar chips – fluidic 261 turning valve chips turning valve chips – fluidic 155 blister test chips blister test chips – 289 blister test chips – 522 blister test chips – 761 cuvette chips cuvette chips – fluidic 527 cuvette chips – fluidic 553 cuvette chips – fluidic 576 generic sensor platform generic sensor platform – fluidic 673 interaction chips interaction chips – fluidic 688 interaction chips – fluidic 737 gradient chips gradient chips – fluidic 834 integrated chips assay chips fluidic 429 – on board metering, mixing, and reaction fluidic 292 – turning valve assisted fluid control with separate assay and reference cavities fluidic 490 – assay development chip for magnetic bead based or hybridization assays fluidic 638 – cell-based assays continuous-flow pcr chip with integrated sample preparation – inline chip fluidic 501 – inline chip immunofiltration system for analytical applications – ifsa chip fluidic 249 – immunofiltration system for analytical applications self-sealing & releasable chips and accessories fluidic 745 – self-sealing & releasable chips handling frame – self-sealing & releasable accessories glass chips straight channel chips – glass chamber chips – glass droplet generator chips – glass meander chips – glass silicone chips silicone casting kit microfluidic accessories fluidic interfaces liquid storage liquid storage – tanks liquid storage – blister pouches liquid storage – liquid handling & reservoir sampling vessels valving microfluidic tubing handling frames chip lids reagents storage & transport boxes polymer substrates & foils wafer format microtiter plate format microscopy slide format double slide format polymer foils instruments chipgenie edition t – heating and pcr systems chipgenie edition e – capillary electrophoresis system with contactless conductivity detection chipgenie edition p – on-chip sample-preparation system chipgenie edition i – pipetting & read-out system chipgenie edition bd chipgenie edition tv lab-on-a-chip handling platform / cell culture incubator – loc hp & loc cci partner instruments dielectrophoresis system dep dropbot – digital microfluidic control system mxr from redbud labs pumps and pressure controllers miccell fluid processor hydrogel micro valves cellix syringe pump systems fluigent – ultraprecise fluid control systems lineup series mfcs series ess fluid handling platform frp flow-rate platform laboratory syringe pump lsp one by advanced microfluidics micropumps by bartels mikrotechnik pumps and pressure controllers by corsolutions periwave fluid delivery pump by corsolutions pneuwave fluid delivery pump by corsolutions pneuwave eco fluid delivery pump by corsolutions flow meters by corsolutions microfluidic connectors and transparent fittings by corsolutions valving – memetis application-specific actuation in small dimensions microfluidic kits microfluidic and chip-pcr support kits microfluidic starter kits microfluidic interface kits integrated chip support kits sample preparation starter kits chipgenie edition p starter kits molecular biology starter kits chipgenie edition e starter kits cell culture basic kits droplet generation kits 微流体聚合物芯片 直通道芯片–显微镜载玻芯片格式 单通道直通道芯片–流体268 并行通道的直通道芯片 具有四个并行通道的直通道芯片–流体138 具有四个并行通道的直通道芯片–流体143 具有四个并行通道的直通道芯片–流体144 具有四个并行通道的直通道芯片–流体145 具有四个并行通道的直通道芯片–流体156 具有四个并行通道的直通道芯片–流体180 带有八个并行通道的直通道芯片–流体157 具有八个并行通道的直通道芯片–流体431 具有16个并行通道的直通道芯片–流体142 具有16个并行通道的直通道芯片–流体152 直通道芯片–微孔板格式 直通道芯片– 64通道板–流体102 直通道芯片– 96通道板–射流600 直通道芯片– 96通道板–流体627 带有废物箱的直通道碎屑 带有废物箱的直通道碎屑–射流95 带有废物箱的直通道切屑–流体272 十字形通道芯片 十字形通道芯片–流体82 十字形通道芯片–流体106 十字形通道芯片–流体166 十字形通道芯片–流体201 十字形通道芯片–流体202 十字形通道芯片–流体394 十字形通道芯片–射流395 十字形通道芯片–流体189 十字形通道芯片–流体160 十字形通道芯片–流体161 带有电极的交叉形通道芯片:接触模式 带有电极的十字形通道芯片:非接触模式 h型通道芯片 h形通道芯片–流体164 样品制备和反应腔芯片 菱形腔室芯片ep1 菱形腔体芯片ep1 –流体221 菱形腔体芯片ep1 –流体式172 菱形腔体芯片ep1 –流体194 菱形腔体芯片ep1 –流体844 菱形腔体芯片ep1 –流体845 菱形腔室芯片ep2 菱形腔体芯片ep2 –流体132 菱形腔体芯片ep2 –流体439 菱形腔体芯片ep2 –流体131 菱形腔体芯片ep2 –流体133 菱形腔体芯片ep2 –流体134 反应室芯片 反应室芯片–流体843 反应室芯片–流体750 反应室芯片–流体561 反应室芯片–流体558 反应室芯片–流体559 反应室芯片–流体478 反应室芯片–流体584 反应室芯片–流体585 反应室芯片–流体556 反应室芯片–流体560 反应室芯片–流体557 反应室芯片–流体842 反应室芯片–流体753 反应室芯片–流体620 反应室芯片–流体621 反应室芯片–流体625 反应室芯片–流体622 带死胡同气室的pcr室芯片 带死腔的pcr室芯片–射流675 带死角储气罐的pcr腔室芯片–流体式683 液滴发生器芯片 液滴发生器芯片–一通道设计–流体162 液滴发生器芯片–一通道设计–流体163 液滴发生器芯片–多通道设计–射流285 液滴发生器芯片–多通道设计–流体440 液滴发生器芯片–单个芯片上包含三个元素–流体536 液滴发生器芯片–单个芯片上包含四个元素–流体537 液滴生成和存储芯片–流体488 液滴生成和存储芯片–流体719 场流分级芯片 场流分馏芯片–流体120 场流分馏芯片–流体159 曲折和连续流pcr芯片 蜿蜒和连续流pcr芯片–流体47 蜿蜒和连续流pcr芯片–流体65 蜿蜒和连续流pcr芯片–流体243 蜿蜒和连续流pcr芯片–射流708 滴定板–显微镜载玻芯片格式 滴定板显微镜载玻芯片格式–流体18 滴定板显微镜载玻芯片格式–流体式141 滴定板显微镜载玻芯片格式–射流383 膜芯片 膜芯片–流体168 膜芯片–流体200 膜芯片–流体535 膜芯片–流体783 膜芯片–流体219 膜芯片–流体398 膜芯片–流体480 膜芯片–流体568 膜芯片–流体653 膜芯片–流体694 膜芯片–流体747 膜芯片–流体846 堰式滤芯 堰式滤芯–流体220 微型搅拌机 微型混合器–流体186 微型混合器–流体187 微型混合器–流体533 微型混合器–流体640 微型混合器–流体式641 微型混合器–流体642 微型混合器–流体658 微型混合器–流体1079 微型混合器–流体286 颗粒和细胞分选芯片 颗粒和细胞分选芯片–流体283 颗粒和细胞分选芯片 male mini luer fluid connectors male mini luer fluid connectors stand-alone female mini luer ports stand-alone female mini luer ports chip droplet generator-one channel design-mini luer chip droplet generator-one channel design-mini luer male mini luer plugs male mini luer plugs chip droplet generator-multi channel designs-mini luer chip droplet generator-multi channel designs-mini luer male luer fluid connectors male luer fluid connectors chip droplet generator-different droplet sizes-mini luer chip droplet generator-different droplet sizes-mini luer chip droplet generator & storage-mini luer chip droplet generator & storage-mini luer particle & cell sorting chip-spiral sorter-mini luer particle & cell sorting chip-spiral sorter-mini luer chip passive herringbone mixer-luer mini luer to luer adapters male luer plugs chip passive diffusion mixer-luer chip rhombic chamber-mini luer stand-alone female olive ports stand-alone female olive ports mini luer to pipette adapter mini luer to pipette adapter chip one straight channel-luer chip one straight channel-luer organ-on-a-chip-cross-flow membrane-mini luer organ-on-a-chip-cross-flow membrane-mini luer chip 4 straight channels-mini luer chip 4 straight channels-mini luer chip droplet generator-double emulsion-luer chip droplet generator-double emulsion-luer chip passive pearl-chain mixer-luer chip reaction chamber-mini luer chip 8 straight channels-luer chip 8 straight channels-luer lab-on-a-chip handling platform incubator for cell culture lab-on-a-chip handling platform incubator for cell culture luer lock chip connection ports w wide base male mini luer plugs-low volume displacement male mini luer plugs-low volume displacement made in pp (polypropylene), chip 16 straight channels-mini luer chip 16 straight channels-mini luer chip droplet generator-four elements on one chip-luer chip droplet generator-four elements on one chip-luer | mircofluidicchips | 李先生 |
| non-contact / tapping mode afm probes general dynamic mode measurements bestsellers » new force modulation (fm) afm probes multi-functional probes bestsellers » new contact mode afm probes general static mode measurements bestsellers » new life science afm probes biological applications bestsellers » new ultra high frequency afm probes high speed measurements bestsellers conductive afm probes electrical characterization (efm, kpfm, ssrm, tuna, etc.) bestsellers » new magnetic afm probes magnetic force microscopy (mfm) bestsellers supersharp afm probes enhanced / atomic resolution measurements bestsellers » new diamond afm probes the ultimate in hardness bestsellers hardened / enhanced wear resistance afm probes long scanning, hard samples bestsellers nanoindentation and lithography afm probes nanomechanics and sample modification bestsellers » new high aspect ratio (har) afm probes deep trench measurements bestsellers » new peakforce tapping® afm probes intermittent contact non-resonance measurements bestsellers » new scanasyst®** afm probes scanasyst® compatible afm probes bestsellers silicon nitride afm probes soft samples in air and liquid bestsellers lateral force microscopy (lfm) afm probes frictional force measurements bestsellers tipless afm cantilevers and cantilever arrays for functionalization and gluing spheres bestsellers self-sensing & self-actuating afm probes the afm technology of tomorrow bestsellers sphere afm tips and colloidal afm probes well defined sphere geometry for nanomechanics » new platinum silicide afm probes the ultimate probes for electrical characterization bestsellers scanning thermal microscopy afm probes temperature and thermal conductivity measurements olympus*** replacement afm probes for the discontinued olympus ac55, ac160, ac240 and ac200 series bestsellers » new premounted afm probes for quesant / ambios afm systems bestsellers nanosensors-logo nanoworld-logo budgetsensors-logo mikromasch-logo opus-logo nanotools-logo afm probes non-contact / standard tapping mode afm probes non-contact / soft tapping mode afm probes fluid tapping afm probes hardened/ enhanced wear resistance tapping afm probes high quality factor afm cantilevers force modulation (fm) afm probes contact mode afm probes life science afm probes ultra high frequency afm probes conductive afm probes magnetic afm probes supersharp afm probes diamond afm probes hardened / enhanced wear resistance afm probes nanoindentation and lithography afm probes high aspect ratio (har) afm probes peakforce tapping® afm probes peakforce kelvin probe force microscopy afm probes peakforce tuna™ afm probes peakforce quantitative nanomechanics afm probes peakforce qnm high-accuracy afm probes scanasyst®** afm probes silicon nitride afm probes lateral force microscopy (lfm) afm probes tipless afm cantilevers and cantilever arrays self-sensing & self-actuating afm probes sphere afm tips and colloidal afm probes platinum silicide afm probes scanning thermal microscopy afm probes omcl-ac160ts replacement afm probes omcl-ac240ts replacement afm probes omcl-ac200ts replacement afm probes omcl-ac55ts replacement afm probes omcl-ac240tm replacement afm probes premounted afm probes | | 李先生 |
| regenhu商,regenhu大中华区,regenhu上海商,regenhu北京商,regenhu中国区域商,regenhu中国区商,regenhu中国总,regenhu总,regenhu广州商,regenhu深圳商,regenhu官方,生物三维打印系统,三维活细胞打印承包,三维活细胞打印机,三维活细胞生物打印机试用,三维扫描打印机,三维活细胞生物打印机承包,三维活细胞生物打印机样机,三维生物打印机出租,三维生物打印外包,三维生物打印机样机,水凝胶3d打印机外包,水凝胶3d打印外包,水凝胶3d打印机租赁,水凝胶3d打印机样机,水凝胶3d打印承包,水凝胶3d打印科研合作,细胞3d生物打印代做实验,细胞3d生物打印科研合作,细胞3d生物打印外包,细胞3d生物打印承包,细胞生物打印机租赁,细胞生物打印机试用,细胞生物打印机出租,细胞生物打印机样机,活细胞打印外包,活细胞打印实验合作,活细胞打印科研合作,discovery生物打印机样机试用,regenhu生物打印机样机试用,regenhu生物打印系统样机试用,生物打印系统样机试用,3d生物打印机样机试用,3d生物打印实验代做,生物打印实验代做,3d生物打印外包,3d生物打印承包,3d生物打印系统样机,生物打印机样机,regenhu,discovery生物3d打印机样机,regenhu,discovery生物打印机样机,regenhu,discovery生物打印机样机试用,regenhu,3ddiscovery,3ddiscovery,fluid,dispenser,生物3d打印机系统哪个好用,生物3d打印机系统,生物3d打印机经销商,生物3d打印机招,生物3d打印机,regenhu生物3d打印机销售商,生物3d打印机销售商,regenhu生物3d打印机销售,瑞士regenhu生物3d打印机,三d活细胞打印机,discovery生物3d打印机价格,regenhu生物3d打印机价格,3d生物细胞打印机体验,3d生物材料打印机选择,3d细胞打印机价格,高精度3d细胞打印机,3d生物打印机价钱,3d细胞打印机价钱,生物打印机比较,3d生物打印机,多少钱,三d细胞打印机,三d生物打印机,3d生物材料打印机推荐,3d生物材料打印机选购,高精度3d生物材料打印机,3d生物打印机选择,3d细胞打印机哪个好,进口3d生物打印机,进口3d生物打印机哪个品牌,3d生物打印机哪个品牌,3d生物打印机哪个品牌好,3d生物打印机如何选择,3d生物打印机如何购买,3d生物打印机用户多,3d生物打印机体验,3d细胞打印机怎么样,3d活细胞打印机怎么样,3d活细胞打印机如何选择,3d细胞打印机如何选择,国外进口生物打印机,瑞士进口生物打印机,细胞悬液3d生物打印机,维纳生物打印机,3d细胞悬液打印机,细胞悬液生物打印机,3d液体打印机,regenhu定制,regenhu生物打印机定制,regenhu小型生物打印机,医用活细胞打印机试用,医用3d打印机试用,医用生物打印机试用,生物打印机试用,生物三维打印机试用,三维生物打印机试用,3d活细胞打印机试用,活细胞3d生物打印机试用,三维细胞打印机试用,3d细胞生物打印机样机,三维细胞打印机样机,3d细胞生物打印机试用,3d生物打印机样机,3d细胞打印机样机,3d细胞打印机试用,生物3d打印系统样机,生物3d打印机样机,生物3d打印系统样机试用,生物3d打印系统试用,regenhu,3ddiscovery样机,regenhu样机试用,regenhu,3ddiscovery样机试用,生物打印机样机试用,regenhu打印机试用,regenhu生物打印机样机,discovery生物打印机样机,3ddiscovery样机,3ddiscovery试用,regenhu生物打印机试用,3ddiscovery,evolution,bioprinter,3ddiscovery-evolution-bioprinter,3ddiscovery,bench,top,3ddiscovery,platform,生物刺激3d打印机,生物刺激打印机,regenhu生物3d打印墨水,3ddiscovery发现系列3d生物打印机,biofactory生物工厂,3d-discovery,bioprinter,3d-discovery,regenhu电纺打印机,calcium,phosphate,paste,regenhu公司,regenhu融合电纺写入打印机,regenhu融合电纺写入,regenhu,bioink,regenhu,3d生物打印机,瑞士regenhu,3d组织列印机,3ddiscovery,regenhu,regenhu的3ddiscovery,biofactory和3ddiscovery生物打印机,biofactory和3ddiscovery,瑞士regenhu公司,高存活率细胞打印机,高存活率细胞组织打印机,活细胞组织打印机,生物医学打印机系统,高存活率3d细胞打印机,高存活率细胞3d打印机,regenhu生物打印机,购买生物打印机,生物打印机购买,regenhu生物3d打印系统,regenhu生物3d打印机,3d生物材料打印机系统,生物3d打印机采购,3d生物打印机采购,ecm-b,bioink,ecm-c,bioink,ecm-f,bioink,ecm-p,bioink,osteoink,ecm-α,bioink,ecm-a,bioink,ecm-β,bioink,biocut,regenhu,biocam,regenhu,biocad,ecm-bioink,3ddiscovery,regenhu,3ddiscovery,evolution,3ddiscovery,biosafety,3d,bio-printers,biofactory,生物打印机推荐,regenhu生物打印机特价,regenhu生物打印机折扣,regenhu生物打印机促销,瑞士生物3d打印机,单细胞生物3d打印机,细胞悬液生物3d打印机,细胞悬液3d打印机,三维立体细胞打印机,如何选购3d生物打印机,如何选购生物打印机,高分子材料3d打印机,陶瓷浆料3d打印机,橡胶材料3d打印机,水凝胶生物打印系统,水凝胶3d打印机,水凝胶材料3d打印机,3d水凝胶细胞打印机,生物增材制造3d打印机,3d生物打印整体方案,提供3d生物打印方案,3d生物打印方案协作,3d生物打印方案提供者,3d生物打印课题委托,3d生物打印课题合作,3d生物打印课题协作服务,组织模型3d打印机,活体细胞打印机,组织工程3d打印机,皮肤3d打印机,细胞打印机,凝胶3d打印机系统,血管3d打印机,3d,生物打印机,3ddiscovery,bioprinter,3ddiscovery,3d打印机,regenhu,biofactory,3ddiscovery,生物支架3d打印机,细胞三维打印机,瑞士3d生物打印机,regenhu细胞生物打印机,仿生3d细胞生物打印机,瑞士三维生物打印机,regenhu三维生物打印机,仿生3d生物打印机,病理模型3d生物打印机,细胞凝胶3d打印机,活性细胞生物打印机,活细胞3d生物打印机,活性细胞3d生物打印机,凝胶3d打印机,肝脏生物打印机,多材料生物打印机,皮肤生物打印机,皮肤3d生物打印机,血管生物打印机,器官模型生物打印机,器官模型3d生物打印机,细胞3d生物打印机,细胞生物打印机,如何选择三维生物打印机,三维生物打印机选购,三维生物打印系统,生物打印系统,3d血管打印机,三维组织器官打印机,三维医用打印机,三维医用生物打印机,三维支架生物打印机,三维细胞支架打印机,细胞三维打印机系统,水凝胶3d打印机系统,活性细胞3d打印机系统,细胞3d打印机系统,3d生物打印技术服务,3d生物打印科研服务,3d生物打印实验服务,生物打印机出租,细胞打印机租赁,3d细胞打印机租赁,水凝胶打印系统,水凝胶三维打印,水凝胶3d打印,生物3d打印设备,3d活细胞凝胶打印系统,3d活细胞打印机,活细胞打印机,3d水凝胶打印机,regenhu,discovery生物打印机,3ddiscovery生物打印机,biofactory生物打印机,3discovery生物打印机,regenhu,3生物打印机租赁,regenhu上海,3d生物打印机求购,3d生物生物打印机如何选择,3d生物打印机品牌好,3d生物打印机哪款好,3d生物打印机哪里买,3d生物打印机价格,3d生物打印方案,3d生物打印机哪个好,3d生物打印机多少钱,3d生物打印机的品牌,3d生物打印机打印头,3d生物打印机出售,生物3d打印科研合作,承接3d生物打印实验,3d组织工程打印机,3d生物打印技术合作,3d凝胶细胞打印机,3d生物打印实验合作,3d生物打印机租用,3d生物打印实验方案,3d生物打印机租赁,3d生物打印机合作,进口生物3d打印机,细胞3d打印系统,3d细胞打印系统,3d生物打印系统,生物血管3d打印机,生物细胞3d打印机,三维细胞打印机,单细胞打印机,三维打印机价格,三维生物打印技术合作,3d细胞打印合作,细胞生物3d打印机,活细胞3d打印,3d细胞打印,高精度三维打印机,3d打印实验承包,生物打印实验承包,生物打印实验服务,生物3d打印服务,生物打印机外包,生物打印机租赁,生物3d打印外包,生物3d打印服务外包,生物打印技术服务承包,生物3d打印承包,生物打印科研服务,生物打印技术服务,3d打印机试用,3d生物打印机试用,3d生物打印机借用,细胞3d打印机借用,细胞3d打印机租赁,细胞3d打印机出租,生物3d打印机试用,生物3d打印机租赁,生物3d打印机出租,3d生物打印机出租,生物材料3d打印机,组织工程3d生物打印机,再生医学3d打印机,3d,bioprinter,三维生物打印机,生物三维打印机,生物增材制造打印机,3d生物血管打印机,3d生物打印,3d生物打印机,3d细胞打印机,regenhu商,细胞3d打印技术,生物3d打印系统,3d生物打印公司,生物3d打印,细胞打印,生物3d打印机,生物打印机,细胞3d打印机 | regenhu | |