铝塑复合材料

Nalgene 5312 干燥器板，淡绿色金属陶瓷复合材料?保证* 干燥器板不易打破，与瓷制品相比，具有更强的耐热冲击性。火抛光、耐腐蚀、惰性、不粘任何东西的玻璃表面与金属黏合。该板标有编号的象限，可以更容易的确定坩锅和其它容器的位置。每板有24 个孔，中心为7/8 in.，建议与5309-0250、5310-0250 和5311-0250 一起使用。可高温高压灭菌订货信息：Nalgene 5312 干燥器板，淡绿色金属陶瓷复合材料目录编号 5312-0230外径，mm230外径，in.9-1/16每盒数量1每箱数量6

高端炭基材料高剪切乳化机，环保水性纳米碳材高速乳化机，碳纳米管材料高剪切乳化机，碳纳米管浆液高剪切乳化机混合机，碳纳米复合母胶高剪切乳化机，液体黄金复合母胶高剪切乳化机混合机设备，超导电纳米碳材高速自吸粉混合机乳化机，炭黑高速自吸粉混合机设备 碳纳米管是一维的纳米材料，在工程材料域，碳管以其优异的物理机械性能成为聚合材料理想的填料。具有优异的力学性能、导电、导热性能，因而被认为是聚合物基复合材料理想的力学强化和功能改性材料，采用碳纳米管制成的复合材料表现出良好强度、弹性和抗疲劳性，碳纳米管也逐渐用于橡胶制品、轮胎、塑料等工业中。 但是，碳纳米管的呈纳米纤维状，自身易团聚和缠结，且碳纳米管表面为规整的石墨晶片结构，表面惰性大，与聚合物基体亲和性差，导致碳纳米管在橡胶基质中的分散性差，而且成本也高，这些限制了碳纳米管在橡胶中的规模化应用。 在橡胶工业中，将碳纳米管填充到各种橡胶基体以提高橡胶基体的性能成为研究高端橡胶产品的理想共混复合材料之一，但碳纳米管自身有着很高的表面自由能，易发生团聚现象，碳纳米管与基体间的相互作用是另一个难题，碳管表面没有任何反应官能图，碳管的惰性使其与聚合物基体间化学界面作用弱，碳纳米管对聚合物基体的改善效果难达到预期，因此制备出尺寸均匀，分散好，性能稳定的碳纳米管及其复合材料是拓展其应用域的需要。 目，在碳管的分散性及其复合材料研究中已经取得许多进展。常用的方法中是将采用表面活性剂对碳管表面改性，将其悬浮液与胶乳复合制得复合母胶，该技术在一定程度解决了碳纳米管的分散，但由于表面活性剂中其它基团的加入会降低复合母胶的性能；因此需要提供一种避免活性剂的加入影响碳纳米管与聚合物间结合的技术方案。 针对现阶段技术中存在的问题，在碳纳米管分散均匀的基础上在其表面引入羧基、羟基等官能团，避免偶联剂的加入影响碳纳米管与胶乳之间的结合。一种高分散碳纳米复合母胶的制备方法，包括以下步骤：1、将碳纳米管在分散液中剪切，制得短切碳纳米管悬浮液；2、通入氧化气体对短切碳管悬浮液氧化，制得短切碳纳米管氧化液；3、将补强材料加入短切碳纳米管氧化液，制得碳纳米管浆液；4、在碳纳米管浆液中加入偶联剂，制得复合浆液；5、将天然橡胶胶乳分散于复合浆液中，制得碳纳米管-天然橡胶复合材料；6、将碳纳米管-天然橡胶复合材料凝固、干燥制得高分散碳纳米复合母胶。 上海依肯根据市场技术需求结合多年来积累的成功案例经验特别推出ERS2000系列高剪切乳化机（混合机），ERS2000在线式高速高剪切乳化机，主要用于微乳液及超细悬浮液的生产。由于工作腔体内三组乳化分散头(定子+转子)同时工作，乳液经过高剪切后，液滴更细腻，粒径分布更窄，因而生成的混合液稳定性更好。三组乳化分散头均易于更换，适合不同的工艺应用。该系列中不同型号的机器都有相同的线速度和剪切率，非常易于扩大规模化生产。 上海依肯ERS2000系列高剪切乳化机（混合机）设备参数选型表：型号 标准流量L/H输出转速rpm标准线速度m/s马达功率KW进口尺寸出口尺寸ERS 2000/4300-100014000442.2DN25DN15ERS 2000/5300010500447.5DN40DN32ERS 2000/10800073004415DN50DN50ERS 2000/202000049004437DN80DN65ERS 2000/304000028504455DN150DN125ERS 2000/407000020004490DN150DN125高端炭基材料高剪切乳化机，环保水性纳米碳材高速乳化机，碳纳米管材料高剪切乳化机，碳纳米复合母胶高剪切乳化机，液体黄金复合母胶高剪切乳化机混合机设备，超导电纳米碳材高速自吸粉混合机乳化机，炭黑高速自吸粉混合机设备。。。需要了解更多详情请致电上海依肯机械设备有限公司 销售工程师 徐蒙蒙 182-0189-1183，公司有样机可以免费为客户进行测试验证实验。

主要用途NbTi线材的主要市场是临床磁共振成像(MRI)，迄今为止生产的线材超过100万公里，安装的系统超过3万套。其它主要用途是核磁共振(NMR)光谱学、高能物理学的粒子加速器和聚变反应堆的磁体。FeaturesToday, Bruker NbTi wires are applied at a large scale in clinical magnet resonance imaging (MRI), nuclear magnetic resonance spectrometry (NMR), and high energy physics. Customers worldwide use Bruker LTS materials to push technological limits and rely on our experts to tailor conductors precisely to specific requirements. And we look forward to discussing yours!BenefitsNbTi superconductor wires manufactured byBruker EASare rugged high-performance products which have proven their qualities for decades in widening spectrum of applications. Economical performance costs, excellent ductility, and favorable processing properties as well as durability and reliability make NbTi the unrivalled workhorse of today’s superconductor industry.Operated under standard conditions at temperatures of 4.2 Kelvin, they carry current densities of up to 3,000A/mm² and enable magnetic fields up to approx. 9.5T.The principal NbTi wire market is clinical magnetic resonance imaging (MRI) with over 1 million kilometers of wire produced and more than 30.000 systems installed to date. Other major utilizations are in nuclear magnetic resonance (NMR) spectroscopy, particle accelerators for high energy physics, and magnets for fusion reactors.Bruker EASoffers a broad range of multifilament round and rectangular shaped NbTi wires matched by a choice of insulations like braided or varnish insulation. Both monolithic and wire-in-channel conductors are available. We customize wires to specifications and advise our clients on adapting wire designs to individual applications.In fact, an average annual wire output of several ten thousand kilometers and plus more than half a century of experience with supplying to leading research facilities, health care, and analytics companies make us one of the world’s most qualified providers of NbTi conductors.Please download our Low Tc superconductor product overview brochure for further information and contact us with any questions or specific inquiries you may have.

主要用途布鲁克EST产品的功率是同类铜线的100倍以上，专为电磁和电力应用而设计。为了向客户提供优化和量身定制的解决方案，我们正在与Bi-2212线材高温超导解决方案合作。高电流密度和优异的机械性能在4至77K温度范围内的所有磁场中提供超导性能。FeaturesWith more than 25 years of experience in the field of High Temperature Superconducting wires (HTS), our interdisciplinary teams are working on new high tech solutions for tomorrow’s challenges. Our focus is HTS wire solutions for ultra high field applications, enabling new insights in research as well as HTS solutions for new applications in electrical industry and healthcare.BenefitsBruker EST products are able to carry more than 100 times the power of comparable copper wire and are designed with magnet and electric power applications in mind. To provide our customers with optimized and tailored solutions, we are working with Bi-2212 wire HTS solutions. High current densities along with excellent mechanical properties deliver unmatched superconducting performance in all magnetic fields in the temperature range from 4 to 77 k.

主要用途该材料能够实现新一代高性能器件，大大降低了尺寸和重量占地面积。其范围从用于医疗和研究目的的磁体技术到电网保护，并包括发电机和电力驱区动以及大型能源密集型工业流程。FeaturesThe material enables a new generation of high-performance devices with a greatly reduced size and weight footprint. The scope ranges from magnet technology for medical and research purposes to power grid protection, and includes electric generators and electric drives as well as large energy-intensive industrial processes.BenefitsBruker HTS Coated ConductorsMagnet technology and electric engineering require increasing quantities of quality assured and commercially processable HTS wire. Bruker EST addresses this demand with an industrial scale production of second generation YBCO-based coated conductors for application at a temperature range between 4 Kelvin and 77 Kelvin.Tape architecture: designed for high performanceHTS coated conductors by Bruker display a multilayer architecture: stainless steel tape material of 100µ m thickness serves as a substrate, or carrier, for a 1.5micrometer (µ m) buffer layer of yttria-stabilized zirconia oxide (YSZ) and a 0.05µ m buffer layer of ceramic cerium (IV) oxide (CeO2). The buffers provide both a chemical barrier and a textured surface for the deposition of a 1µ m superconducting layer of high-quality bi-epitaxial yttrium barium copper oxide (YBCO). A protecting and stabilizing 0.2µ m layer of gold or silver covers the superconducting film. The layer architecture as a whole is subsequently encased by a 20µ m copper plating serving as a shunt.Production process: industrial quality assurance, output, and speedIn view of expanding commercial markets, HTS production at Bruker EST is based on physical deposition processes. The production technology affords uniform quality characterized by high critical currents and favorable mechanical properties of the conductor material as well as cost efficiency at high yields and throughput rates: Polished stainless steel substrate tape is cleaned before the YSZ buffer is applied by alternating beam assisted deposition (ABAD). Subsequently the CeO2buffer and the superconducting polycrystalline YBCO layer are added by high-resolution pulsed laser deposition (HR-PLD). Applying the gold or silver film by physical vapor deposition (PVD) finalizes the layer architecture on the substrate which is then annealed and galvanic copper-plated. Dependable for commercial applicationDependable for commercial applicationWith its proprietary HTS production process, Bruker has mastered one of the most demanding barriers to superconductor application of a wide scope: YBCO, the brittle oxide ceramic superconductor, is fashioned into tape wire material with high critical currents which can be handled and processed in industrial environments. Stainless steel tape as a substrate provides excellent mechanic characteristics which the production process successfully transfers to the entire conductor. HTS coated conductors by Bruker EST feature a maximum tensile strength of 650 MPa and a minimum bending radius of 6 millimeters.

TUBALL?COMP_E复合物电性强化改质剂TUBALL?COMP_E母粒用于热固性复合物导电时所需。它们包含OCSiAl品牌生产的TUBALL?单壁碳纳米管。TUBALL?COMP_E母粒可使用在环氧树脂、聚酯树脂。提供通用的低粘度树脂，并提供所需的导电性，同时维持或甚至增加机械强度。将产品以滴入方式到现有的树脂系统，无须制造过程或配方的改变。它是整合纳米材料最简单、 最有效的路径。TUBALL?COMP _E特点:低浓度即可获得所需的导电率 ；均一的导电性，保留热固性塑料的机械强度，包括SMC、 BMC，玻璃纤维复合材料、环氧地坪和其它纤维增强复合材料 ；专为现有的制程创建，不需要改变制程且使用传统的搅拌设备 ；不须更改配方比例，不会引起材料粘度的显著提升。The typical volume resistivity in polyester and epoxy resinsis in the range of 108–102 Ω?CM包装规格:300g

氧化铝薄膜由精密的金字塔状氧化铝颗粒组成，主要应用于金属，塑料，复合材料，陶瓷学，金相学。金字塔形均匀地磨损，不断有新的研磨剂暴露出来，只需要较少的处理步骤即可达到较高的光泽度，防水聚酯薄膜背地。

主要用途布鲁克制造的NbSn超导线材为高磁场技术中最苛刻的应用提供基准性能。它们在高达20特斯拉的磁场中良好的工作特性使其成为低温超导体的金标准。核磁共振(核磁共振)光谱学是布鲁克NbSn线材最突出的应用。提供磁场强度超过20特斯拉的磁铁被用于核磁共振系统。我们的铌锡导体也用于所有主要的粒子加速器和聚变研究项目，这将在未来需要超过12特斯拉的磁铁。FeaturesToday, Bruker Nb3Sn wires are applied at a large scale in high field nuclear magnetic resonance spectrometry (NMR), high energy physics and fusion research. Customers worldwide use Bruker LTS materials to push technological limits and rely on our experts to tailor conductors precisely to specific requirements. And we look forward to discussing yours!NbSn superconductor wires manufactured by Bruker deliver benchmark performance for the most demanding applications in magnetic high-field technology. Their favorable operating characteristics in magnetic fields of up to 20 Tesla make them the gold standard of low-temperature superconductors.Nuclear Magnetic Resonance (NMR) Spectroscopy is the most prominent application of Bruker NbSn wires. Magnets delivering field strengths in excess of 20 Tesla are employed in NMR systems. Our NbSn conductors are also utilized in all major particle accelerator and fusion research projects, which will in future require magnets exceeding 12 Tesla.BenefitsNbSn superconductor wires manufactured byBruker deliver benchmark performance for the most demanding applications in magnetic high-field technology. Their favorable operating characteristics in magnetic fields of up to 20 Tesla make them the gold standard of low-temperature superconductors.Nuclear Magnetic Resonance (NMR) Spectroscopy is the most prominent application of Bruker NbSn wires. Magnets delivering field strengths in excess of 20 Tesla are employed in NMR systems.Our NbSn conductors are also utilized in all major particle accelerator and fusion research projects, which will in future require magnets exceeding 12 Tesla.We meet the specific challenges presented by these areas of deployment:Bronze-based NbSn wires by Bruker are the industry’s first choice wherever very high performance superconductors must also feature robust mechanical load-bearing capacities.Our bronze-based wire design has been proving its versatility in magnets between 10 to 23 Tesla for many years and is applicable, as well, for exceptionally demanding LTS cable configurations.The very best high field performance attainable in Nb Sn is provided by BEST's RRP wire. This performance has enabled multiple world-record setting magnets. BEST has scaled up this state-of-the-art conductor to commercial production. For applications demanding the very best high field performance, RRP may provide the most cost effective conductor.

内蒙古石墨烯材料研究院以内蒙古石墨烯产业为己任，注重产学研合作。在了解国际发展前沿技术的同时，将调研全国石墨烯技术需求，编制产业发路线图，为政府决策及企业发展提供技术参考。研究院为石墨烯企业提供技术咨询、技术改造、新产品开发等方面的技术服务。改造传统产业、扶持新兴产业，提升内蒙古石墨烯产业的自主创新能力与国际竞争能力。研究院将根据调研情况，凝练行业公共关键技术课题，组织实验室、企业共同进行课题攻关，充分发挥实验室的科研特长和企业的市场灵敏性，开发出具有技术与市场前瞻性的产品。公共技术服务产业人才培养为相关企业在石墨烯制备及应用技术创新方面的研究提供雄厚的人力资源和先进的技术设备。引进团队引进国内外相关领域的高水平团队，吸引、支持相关团队来研究院开展研究活动、创业探索。孵化企业鼓励引进具有高水平科研成果的相关团队创办企业。通过研究院的资金、运营团队和下游实体企业的支持，孵化石墨烯相关初创企业。培育产业初创企业运行一段时间后，积极帮助企业寻找下游用户，开拓市场，并通过各种政策如科技计划支持、税收政策优惠、科技金融贷款、创投公司融资等服务，支持初创企业进一步做大做强，从而达到培育产业的目标。服务模式共建研发中心：以我院科技力量作为技术支撑，共建企业研发中心，为企业服务共同承担国家和地方科技任务：以企业为主体或研究院为主体，共同承担国家创新基金，科技支撑以及地方科技攻关项目委托研究开发：由企业出题，承担全部的研发费用，知识产权归企业所有共同开发：由企业或研究所共同提出科技项目，双方共同投入，知识产权根据双方投入比例和前期技术积累而定技术转让和技术入股：将我院成熟的技术进行转让或以知识产权入股技术咨询和技术服务：以研究院的人力资源作投入，为企业提供技术咨询和技术服务石墨烯制备实验室石墨烯制备及表征石墨烯材料的宏量可控制备石墨烯薄膜大规模CVD制备及转片技术开发石墨烯储能实验室高性能石墨烯基超级电容器产品的开发新型高性能锂离子电池正极材料及高性能负极材料开发与石墨烯负极相匹配的高电压和高容量锂离子电池正极材料开发高性能石墨烯基储能锂离子电池材料的实用化研究石墨烯复合材料实验室石墨烯复合材料的开发石墨烯吸油材料的开发高性能石墨烯复合材料的开发石墨烯分析测试中心石墨矿的分析测试石墨烯材料的分析检测石墨烯应用产品的检测石墨烯标准研究中心石墨烯材料标准研究石墨烯相关应用标准研究

TUBALL?COMP_M复合物机械强化改质剂TUBALL?COMP_M高效添加剂可以赋予复合材料更高的耐用度及断裂韧性，而这整体解决方案可以应用在任何一种树脂系统，并且不需要任何生产方式或技术的变更，就可使复合材料提升耐用性、刚硬度及韧性的需求。TUBALL?COMP_M可透过添加的方式，改善现有的树脂效能，您不需要流程或配方比率的改变，简单且有效，即可整合纳米材料。TUBALL?COMP_M特点：?提高了复合物的耐用性和韧性机械性能在大部分的复合物 ?固化石墨烯奈米材料添加剂是非活性的，只需简单的添加到目前的制品。?为既有的产品量身订做，制程无须改变。?不须更改原料配方，黏度无显著的增加。 提高耐用和无流程或配方滴入式多功能添加剂 完全固化和非活性 石墨烯奈米材料 保持刚硬度的变化 (单壁奈米碳管) 包装规格:300g

复合资材（鹰牌）SPOT PP - 神奇强力修整剂助您解决塑料制成品的夹水纹和气纹，减少次废品出现。特点：1. 轻度夹水纹和气纹，喷涂薄膜，即见效果；2. 经涂装后仍见夹水纹，喷涂本品后再进行涂装仍可发挥理想效果；3. 如成品表面太过光亮，喷涂本品即变哑色。适应塑料：PP、ABC、AS、PC、Acryl、硬质/软质盐化Vinyl、Nylon、Urethane、Phenol epoxy等；凡不适用Spot 50的塑料成品，均可应用本品作为表面处理；软质盐化Vinyl及Nylon需特别注意。使用方法：1. 用前需摇匀；2. 成品表面需清洁干燥，无油，无尘埃；3. 距离成品表面30cm为宜。注意事项：1. 本品仅适合用于有蚀纹〈火花纹〉和皮纹的塑料制品，不合适用于光面、镜面、透明和太薄的软胶产品。2. 喷射适量，即见效果；过量喷射，会引致有裂缝、皱纹、膨胀、白化现象等问题。3. 常温干燥无问题，低温(80oC)强制干燥效果更好，20分钟即完全硬化。容量：420ml /瓶包装：每箱48瓶颜色：透明和黑色两种

铝塑复合膜气体采样袋, 5L, 侧向塑阀, 单阀

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铝塑复合膜气体采样袋, 20L, 双直通塑阀, 双阀

铝塑复合膜气体采样袋, 30L, 双直通塑阀, 双阀

铝塑复合膜气体采样袋, 4L, 直通塑阀, 单阀

铝塑复合膜气体采样袋, 3L, 双直通塑阀, 双阀

铝塑复合膜气体采样袋, 8L, 直通塑阀, 单阀

铝塑复合膜气体采样袋, 1L, 直通塑阀, 单阀

铝塑复合膜气体采样袋, 50L, 双直通塑阀, 双阀

铝塑复合膜气体采样袋, 20L, 侧向塑阀, 单阀

铝塑复合膜气体采样袋, 15L, 侧向塑阀, 单阀

铝塑复合膜气体采样袋, 50L, 直通塑阀, 单阀

铝塑复合膜气体采样袋, 8L, 双直通塑阀, 双阀

铝塑复合膜气体采样袋, 30L, 侧向塑阀, 单阀

铝塑复合膜气体采样袋, 10L, 侧向塑阀, 单阀

铝塑复合膜气体采样袋, 3L, 侧向塑阀, 单阀

铝塑复合膜气体采样袋, 50L, 侧向塑阀, 单阀

铝塑复合膜气体采样袋, 8L, 侧向塑阀, 单阀

铝塑复合膜气体采样袋, 1L, 侧向塑阀, 单阀