瞬態(tài)平面熱源技術(shù)(TPS)是用于測(cè)量導(dǎo)熱系數(shù)的一種新型的方法�����, 由瑞典 Chalmer 理工大學(xué)的 Silas Gustafsson 教授在熱線法的基礎(chǔ)上發(fā)展起來(lái)的。它測(cè)定材料熱物性的原理是基于無(wú)限大介質(zhì)中階躍加 熱的圓盤形熱源產(chǎn)生的瞬態(tài)溫度響應(yīng)�。利用熱阻性材料做成一個(gè)平面的探頭,同時(shí)作為熱源和溫度傳感 器����。合金的熱阻系數(shù)一溫度和電阻的關(guān)系呈線性關(guān)系,即通過(guò)了解電阻的變化可以知道熱量的損失���,從 而反映了樣品的導(dǎo)熱性能��。
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二�����、技術(shù)參數(shù)
測(cè)試范圍 | 0.005~300W/(m*K) |
測(cè)量溫度范圍 | 常溫~130℃ |
探頭直徑 | 一號(hào)探頭 7.5mm�����;二號(hào)探頭 15mm |
精度 | ≤2% |
重復(fù)性誤差 | ≤3% |
測(cè)量時(shí)間 | 5~160s |
樣品溫升 | <15℃ |
電源 | 220V |
整機(jī)功率 | <500W |
樣品規(guī)格 | 一號(hào)探頭所測(cè)單個(gè)樣品 (15*15*3.75)mm 二號(hào)探頭所測(cè)單個(gè)樣品 (30*30*7.5)mm |
產(chǎn)品特點(diǎn):
1����、測(cè)試范圍廣泛�,測(cè)試性能穩(wěn)定;
2、直接測(cè)量��,測(cè)試時(shí)間5-160s左右可設(shè)置��,能快速準(zhǔn)確的測(cè)出導(dǎo)熱系數(shù)�����,節(jié)約了大量的時(shí)間���;
3�����、不會(huì)和靜態(tài)法一樣受到接觸熱阻的影響;
4�、無(wú)須特別的樣品制備,對(duì)樣品形狀并無(wú)特殊要求����,塊狀固體只需相對(duì)平滑的樣品表面并且滿足長(zhǎng)寬至
少為探頭直徑的兩倍即可;
5���、對(duì)樣品實(shí)行無(wú)損檢測(cè)��,意味著樣品可以重復(fù)使用����;
6、探頭采用雙螺旋線的結(jié)構(gòu)進(jìn)行設(shè)計(jì)�����,結(jié)合專屬數(shù)學(xué)模型�����,利用核心算法對(duì)探頭上采集的數(shù)據(jù)進(jìn)行分析
7�、樣品臺(tái)的結(jié)構(gòu)設(shè)計(jì)巧妙,操作方便��,適合放置不同厚度的樣品�����,同時(shí)簡(jiǎn)潔美觀���;
8��、探頭上的數(shù)據(jù)采集使用了進(jìn)口的數(shù)據(jù)采集芯片��,該芯片的高分辨率����,能使測(cè)試結(jié)果更加準(zhǔn)確可靠;
9�、主機(jī)的控制系統(tǒng)使用了ARM 微處理器,運(yùn)算速度比傳統(tǒng)的微處理器快�����,提高了系統(tǒng)的分析處理能力��, 計(jì)算結(jié)果更加準(zhǔn)確���;
10�����、儀器可用于塊狀固體、膏狀固體��、顆粒狀固體��、膠體�����、液體、粉末�、涂層、薄膜�����、保溫材料等熱物性參數(shù)的測(cè)定�����;
11���、智能化的人機(jī)界面��,彩色液晶屏顯示�,觸摸屏控制���,操作方便簡(jiǎn)潔����;
軟件特點(diǎn):
1�、支持儀器系數(shù)校準(zhǔn)��。
2�、自動(dòng)計(jì)算導(dǎo)熱系數(shù)��,熱擴(kuò)散系數(shù)�,相關(guān)系數(shù),可以自動(dòng)判斷結(jié)果是否符合溫升�。
3、曲線可以一鍵自適應(yīng)��,曲線放大���,縮小���,視圖拖動(dòng)�����。
4、支持同時(shí)打開多條曲線�,且數(shù)量不受限制。
5�����、可生成報(bào)告���,圖像�,結(jié)果�����,實(shí)驗(yàn)信息等�����,模板可自定義�。
6、軟件內(nèi)置試驗(yàn)記錄��、數(shù)據(jù)處理和報(bào)告格式�����。
7��、可到處數(shù)據(jù)�����,支持 xls,tps,cvs,png 等格式導(dǎo)出����,并支持對(duì) xls,tps,cvs 等格式的導(dǎo)入��。軟件具有遠(yuǎn)程更新功能�,可以自動(dòng)獲取到新版本軟件,直接安裝���。
8�����、支持?jǐn)?shù)據(jù)優(yōu)化��,污點(diǎn)數(shù)據(jù)去除��,智能化進(jìn)行計(jì)算����。
9���、支持中文�,英文���, 日語(yǔ)���,韓語(yǔ)切換。
部分采購(gòu)高校及機(jī)構(gòu)
| 1�、 | 二維石墨材料導(dǎo)熱防腐涂層制備及性能優(yōu)化 | 大連理工大學(xué) |
| 2、 | 水稻秸稈砂漿復(fù)合材料熱工性能研究 | 沈陽(yáng)農(nóng)業(yè)大學(xué) |
| 3����、 | 陶瓷廢料制備輕質(zhì)保溫泡沫陶瓷的研究 | 華南理工大學(xué) |
| 4、 | 碳納米管-膨脹石墨/環(huán)氧樹脂復(fù)合材料的導(dǎo)熱性能 | 中國(guó)科學(xué)院過(guò)程工程研究所 |
| 5����、 | 高性能鋼結(jié)構(gòu)防火涂層制備性能及應(yīng)用研究 | 煙臺(tái)大學(xué) |
| 6、 | 真空絕熱板芯材木粉原料的隔熱性能分析 | 福建農(nóng)林大學(xué) |
| 7�、 | 水性納米隔熱保溫涂料的制備與性能研究 | 深圳恒固納米科技有限公司 |
| 8、 | 氧化亞銅包覆正二十烷相變材料微膠囊的制備及其多功能性研究 | 北京化工大學(xué) |
| 9����、 | 結(jié)構(gòu)保溫膨脹珍珠巖混凝土的試驗(yàn)及性能研究 | 河北建筑工程學(xué)院 |
| 10、 | 棉纖維對(duì)保溫材料性能的影響 | 南通開放大學(xué) |
| 11��、 | 納米填料改性環(huán)氧樹脂復(fù)合材料性能研究 | 東北石油大學(xué) |
| 12��、 | 二硫化鉬改性酚醛樹脂的耐熱性及抗氧化性研究 | 內(nèi)蒙古農(nóng)業(yè)大學(xué) |
| 13、 | 氣凝膠摻雜?;⒅樯皾{性能的研究 | 江蘇省既有建筑綠色化改造工程技術(shù)研究中心 |
| 14、 | 保溫膨脹珍珠巖混凝土配合比設(shè)計(jì)與分析 | 中鐵十八局集團(tuán)房地產(chǎn)開發(fā)有限公司 |
| 15���、 | 雙酚S環(huán)氧樹脂的合成及其膠粘劑的研制 | 東華大學(xué)應(yīng)用化學(xué)系 |
| 16�����、 | 高分子雜化碳?xì)饽z基復(fù)合相變材料的組裝設(shè)計(jì)與性能研究 | 桂林電子科技大學(xué) |
| 17��、 | 光熱轉(zhuǎn)化相變微膠囊與溫敏相變凝膠的制備與性能研究 | 江南大學(xué) |
| 18��、 | 氟化石墨烯/聚合物功能涂層的防腐性能研究 | 大連理工大學(xué) |
| 19���、 | 堅(jiān)木單寧基泡沫材料的制備及其力學(xué)性能 | 福建農(nóng)林大學(xué) |
| 20、 | 高導(dǎo)熱苯乙烯丙烯酸樹脂復(fù)合材料制備及導(dǎo)熱性能研究 | 沈陽(yáng)化工大學(xué) |
| 21�、 | 新型高性能復(fù)合相變材料的結(jié)構(gòu)設(shè)計(jì)及性能研究 | 桂林電子科技大學(xué) |
| 22、 | 水性納米隔熱保溫涂料的制備與性能研究 | 深圳恒固納米科技有限公司 |
| 23����、 | MnO2對(duì)鉬尾礦基發(fā)泡陶瓷升溫速率影響的研究 | 商洛學(xué)院 |
| 24、 | 微納米碳復(fù)合水性散熱涂料的制備與性能研究 | 華南理工大學(xué) |
| 25���、 | 分層分區(qū)布料工藝制備輕質(zhì)保溫發(fā)泡陶瓷的研究 | 商洛學(xué)院 |
部分使用導(dǎo)熱系數(shù)客戶SCI論文
1���、Hydrogel beads derived from chrome leather scraps for the preparation of lightweight gypsum
2���、Size-controlled graphite nanoplatelets_ thermal conductivity enhancers for epoxy resin
3����、Thermal, morphological, and mechanical characteristics of sustainable tannin bio-based foams reinforced with wood cellulosic fibers
4、Improved thermal conductivity of epoxy resin by graphene–nickel three-dimensional filler
5��、A synergistic strategy for fabricating an ultralight and thermal insulating aramid nanofiber/polyimide aerogel
6�����、Fabrication of Graphene/TiO 2 /Paraffin Composite Phase Change Materials for Enhancement of Solar Energy Efficiency in Photocatalysis and Latent Heat Storage
7�����、Improved thermal conductivity of styrene acrylic resin with carbon nanotubes, graphene and boron nitride hybrid fillers
8��、Preparation and characterization of paraffin/expanded graphite composite phase change materials with high thermal conductivity
9�����、Tailoring of bifunctional microencapsulated phase change materials with CdS/SiO2 double-layered shell for solar photocatalysis and solar thermal energy storage
10、Functional aerogels with sound absorption and thermal insulation derived from semi-liquefied waste bamboo and gelatin
11���、Lamellar-structured phase change composites based on biomass-derived carbonaceous
sheets and sodium acetate trihydrate for high-efficient solar photothermal energy harvest
12��、Construction of double cross-linking PEG/h-BN@GO polymeric energy-storage composites with high structural stability and excellent thermal performances
13�����、Gelatin as green adhesive for the preparation of a multifunctional biobased cryogel derived from bamboo industrial waste
14����、A novel self-thermoregulatory electrode material based on phosphorene-decorated phase-change microcapsules for supercapacitors
15���、Development of poly(ethylene glycol)/silica phase-change microcapsules with well-defined core-shell structure for reliable and durable heat energy storage
16�、Experimental and numerical study on heat emission characteristics of ventilated air annular in tunneling roadway
17���、Construction of polyaniline/carbon nanotubes-functionalized phase-change microcapsules for thermal management application of supercapacitors
18�����、Mechanical, thermal and acoustical characteristics of composite board kneaded by leather fiber and semi-liquefied bamboo
19�、Tuning the oxidation degree of graphite toward highly thermally conductive graphite/epoxy composites
20����、Thermal self-regulatory smart biosensor based on horseradish peroxidase-immobilized phase-change microcapsules for enhancing detection of hazardous substances
21����、Morphology-controlled synthesis of microencapsulated phase change materials with TiO2 shell for thermal energy harvesting and temperature regulation
22����、Size-tunable CaCO3@n-eicosane phase-change microcapsules for thermal energy storage
23、High-Efficiency Preparation of Reduced Graphene Oxide by a Two-Step Reduction Method and Its Synergistic Enhancement of Thermally Conductive and Anticorrosive Performance for Epoxy Coatings
24����、Temperature and pH dual-stimuli-responsive phase-change microcapsules for multipurpose applications in smart drug delivery
25����、Development of Renewable Biomass-Derived Carbonaceous Aerogel/Mannitol Phase-Change Composites for High Thermal-Energy-Release Efficiency and Shape Stabilization
26、Immobilization of laccase on phase-change microcapsules as self-thermoregulatory enzyme carrier for biocatalytic enhancement
27�、Microencapsulating n-docosane phase change material into CaCO3/Fe3O4 composites for high-efficient utilization of solar photothermal energy
28、Integration of Magnetic Phase-Change Microcapsules with Black Phosphorus Nanosheets for Efficient Harvest of Solar Photothermal Energy
29�、Surface construction of Ni(OH)2 nanoflowers on phase-change microcapsules for enhancement of heat transfer and thermal response
30、Design and fabrication of bifunctional microcapsules for solar thermal energy storage and solar photocatalysis by encapsulating paraffin phase change material into cuprous oxide
31�、Design and construction of mesoporous silica/n-eicosane phase-change nanocomposites for supercooling depression and heat transfer enhancement
32、Development of reversible and durable thermochromic phase-change microcapsules for real-time indication of thermal energy storage and management
33���、Nanoflaky nickel-hydroxide-decorated phase-change microcapsules as smart electrode materials with thermal self-regulation function for supercapacitor application
34��、Biodegradable wood plastic composites with phase change microcapsules of honeycomb-BN-layer for photothermal energy conversion and storage
35���、Hierarchical microencapsulation of phase change material with carbon-nanotubes/polydopamine/silica shell for synergistic enhancement of solar photothermal conversion and storage
36���、Molecularly Imprinted Phase-Change Microcapsule System for Bifunctional Applications in Waste Heat Recovery and Targeted Pollutant Removal
37、Pomegranate-like phase-change microcapsules based on multichambered TiO2 shell engulfing multiple n-docosane cores for enhancing heat transfer and leakage prevention
38���、Innovative Integration of Phase-Change Microcapsules with Metal–Organic Frameworks into an Intelligent Biosensing System for Enhancing Dopamine Detection
39�、Morphology-controlled fabrication of magnetic phase-change microcapsules for synchronous efficient recovery of wastewater and waste heat
40�����、Polyimide/phosphorene hybrid aerogel-based composite phase change materials for high-efficient solar energy capture and photothermal conversion
