HAAKE RheoStress 6000流变仪安全操作规程

流变仪的操作指南
1，开电闸，开空压机，直到稳定在30PSI以上；
2，开流变仪主机，等待2min；开电脑连接软件；
，装夹具和驱动杆；
，升温（Required Value）到指定温度，稳定后等待5min；
，零点校正：粗调，至3000-5000左右，然后点击左边倒数第二个按钮，continue，最后gap稳定在18，校正完成；
，等夹具gap升到45000稳定后；
，旋转校正：点击左边倒数第三个按钮，perform，等2分钟；，装料，然后降到8000左右，尽量降低高度，让塑料塑化；
，慢慢降低夹具高度，推荐每次降500，直到1050；
，刮掉边缘的料，降下夹具旁边的外壳，把夹具高度下降到1000；，设置程序，反复确认后，点击开始按钮；
，等待做完之后，顶住夹具，取出驱动杆；
，将夹具高度上升到85000；
，卸下夹具并且刮干净夹具和底座上残余的料；
15，将required value设置到50℃，旋转机器后方旋钮放气；16，等温度下降到100℃后，依次如下操作：旋转旋钮停止放气，关闭仪器，关闭空压机，关闭电闸，关闭电脑；
注：若连续做多个样品，则在步骤14后接步骤3。

流变仪操作规程流变仪操作规程一、前言为了确保流变仪的正常运行和实验的准确可靠，特制定本操作规程。

二、安全操作1. 操作人员应戴好安全帽、面罩、防护眼镜和护手套。

2. 在操作前，应进行相关的安全培训。

3. 确保实验室内通风良好，仪器周围无杂物。

4. 禁止将有刺激性和腐蚀性的物质放置在流变仪附近。

三、仪器准备1. 检查仪器的电源线是否正常连接，接地是否良好。

2. 检查仪器的液位，如液位低于最低液位线，则需添加适量的试剂。

3. 检查仪器的配件是否完整，如转子、夹具等。

4. 启动仪器，进行预热至设定温度。

四、实验操作1. 将待测样品加入样品容器中，并确保样品容器的密封性。

2. 将样品容器放置在转子中并锁紧。

3. 设置实验参数，包括温度、转速等。

根据实验需要，选择适当的测试模式，如剪切模式、振荡模式等。

4. 启动流变仪，记录实验开始时间，并开始测试。

5. 在实验过程中，实时观察流变仪的显示屏，记录下相应的数据。

6. 如需要进行多次实验，应在实验结束后恢复到初始状态，并清除样品容器中的残留物。

7. 在实验结束后，关闭流变仪，断开电源。

8. 清洗仪器，将样品容器取出并清洗干净，保持仪器的清洁。

五、故障排除1. 在操作过程中，如遇到异常情况，应及时停止实验并检查原因。

2. 如发现仪器出现故障，应及时联系仪器维修人员进行检修。

六、注意事项1. 严禁将有刺激性、腐蚀性和易爆性的样品放入流变仪进行测试。

2. 在操作过程中，应注意仪器的振动和声音是否正常，如有异常应立即停止实验并检查原因。

3. 在操作过程中应控制好实验流程，避免出现误操作。

4. 实验结束后，应及时清洗仪器，保持其干净整洁。

综上所述，流变仪操作规程对流变仪的操作流程、安全操作、仪器准备、实验操作、故障排除和注意事项等方面进行了规范，有助于保证实验的准确可靠和操作人员的安全。

每位操作人员在操作前应仔细阅读本规程，并严格按照规程进行操作，如发现任何问题或疑问，应及时向相关人员咨询。

第1篇一、概述流变仪是一种用于测量材料流动性能的仪器，广泛应用于材料科学、生物医学、食品工业等领域。

为确保流变仪的正常运行和操作人员的安全，特制定本操作规程。

二、操作前的准备1. 检查流变仪外观，确保无损坏，各部件连接牢固。

2. 检查流变仪的电源线和压缩空气管路，确保无破损、老化现象。

3. 检查仪器内部各部件，如传感器、测量头、转子等，确保其清洁、无异物。

4. 根据实验要求，准备好待测样品。

三、操作步骤1. 开机（1）连接总电源，打开插板中标记着“流变仪”、“显示器”和“电脑”的电源。

（2）打开空气压缩机，待空气压力升至标准值（左边的气压表不低于5bar）后，打开空气阀。

（3）打开电脑和流变仪主机电源，自检结束，确认主机处于正常状态。

2. 设置参数（1）在电脑上打开流变仪软件，进入控制面板。

（2）根据实验要求，设置测试参数，如温度、频率、应变等。

3. 测试样品（1）将样品放入流变仪测量头，确保样品表面平整。

（2）启动测试程序，开始测试。

4. 数据处理与分析（1）测试结束后，查看测试结果，如流变曲线、剪切应力等。

（2）根据实验要求，对数据进行处理和分析。

四、操作注意事项1. 操作过程中，确保仪器电源线和压缩空气管路连接牢固，防止漏电、漏气。

2. 操作人员应佩戴安全眼镜，以防样品飞溅。

3. 手上有水或油污时，不得操作仪器。

4. 非专业人员不得自行拆卸仪器和修理。

5. 空压气压力不得大于4bar，否则可能损坏空气轴承。

6. 确保EHEIM水浴软管连接正确紧密，并畅通。

五、操作后的维护1. 关闭流变仪主机和电脑电源。

2. 关闭空气压缩机。

3. 清洁仪器表面，保持仪器清洁。

4. 定期检查仪器各部件，确保其正常工作。

5. 按照仪器说明书进行定期保养。

六、安全注意事项1. 操作人员应熟悉流变仪的操作规程，了解仪器的安全性能。

2. 严格遵守操作规程，确保操作安全。

3. 发生异常情况时，立即停止操作，切断电源，报告相关人员。

流变仪操作规程
《流变仪操作规程》
一、设备准备
1. 将流变仪放置在平稳的台面上，并接通电源并保证电源稳定。

2. 清洁流变仪的外壳和配件，确保设备表面干净。

3. 检查流变仪的所有零部件和配件是否完好无损，如果有损坏或者缺失应立即修复或更换。

二、样品处理
1. 准备需要测试的样品，并按照要求进行加工和处理。

2. 样品处理完毕后，将样品放置在流变仪测试台上，并确保样品的温度和压力处于稳定状态。

三、操作流变仪
1. 打开流变仪的电源开关，待仪器启动完成后，通过触摸屏或按钮操作进入测试界面。

2. 设置测试参数，包括转速、温度、压力等，根据样品的性质和要求进行调整。

3. 将样品加入测试容器中，并进行固定和封闭。

注意避免样品溢出或者泄漏。

4. 启动测试程序，观察流变仪对样品的测试过程，根据需要进行实时调整。

5. 测试完成后，关闭流变仪电源，并清理测试容器和配件，保持设备的清洁。

四、数据处理
1. 将测试得到的数据导出到计算机或其他设备中，进行分析和处理。

2. 根据测试结果，制定相应的方案和措施。

五、设备维护
1. 每次使用流变仪后，应进行相应的清洁和维护工作，保证设备的正常运行。

2. 定期对流变仪进行检验和校准，确保设备的准确性和可靠性。

六、安全注意事项
1. 在操作流变仪时，应注意安全防护，避免发生意外事故。

2. 严格遵守流变仪的使用规程，不得私自操作或调整。

以上就是《流变仪操作规程》的相关内容，希望能够引起您的重视并严格执行。

流变仪操作流程
HAAKE RS 6000旋转流变仪简易操作流程
1.打开空压机电源或者管道气开关
2.待压缩空气出口压力稳定在2Bar左右后，打开控温循环气SC100-A10, 控温器UTMC和
RS6000旋转流变仪电源开关
3.启动计算机，运行Rheowin Job Manager 软件
4.在软件界面Jobs中选取已保存的Job，开启。

或新建一个新的Job（如何新建Job，请查考
说明书）
5.通过Rheowin软件将控温夹套温度设定到测量温度
6.装上测量要用的转子和杯子（或压力单元和外磁环）
7.温度达到测试温度后调节零点
8.在测试杯中或者压力单元中装入样品
9.点击在工作编辑器上的启动按钮，开始测试
10.测试结束后保持数据，升起升降台，清洁测量转子，杯子或压力单元
11.实验结束后，关闭RS6000主机、控温器UTMC和空压机电源开关。

*不同的测试系统和控温系统流程略有不同，请根据实际情况作调整。

As a pioneer in the fi eld of rheology, we are well-known for our leadingHAAKE viscometer and rheometerlines. These instruments preciselyanalyze a materials‘s rheologicalproperties, temperature-relatedchanges, and the material’sprocessability.The Thermo Scientifi c HAAKERheoStress 6000 is the latestgeneration in the successfulRheoStress series, which is focusedon standard applications in research& development and quality control.The HAAKE RheoStress 6000 is fullycompatible with existing accessoriesof previous RheoStress modelssuch as temperature controlunits, measuring geometries andapplication oriented measuringcells. The new modular HAAKERheoStress 6000 combinesproven technology plus the latestinnovations from the high endThermo Scientifi c HAAKE MARSrheometer. This makes it easier toupgrade to the new generation inRheology without making a hugeinvestment. Thanks to the ThermoScientifi c HAAKE MARS technologyinside, our customers can nowbenefi t from the latestdevelopments in user-friendlymeasuring software and fi rmware.Thermo ScientificHAAKE RheoStress 6000Selection of HAAKE RheoStress models:HAAKE RheoStress 100(1992)HAAKE RheoStress 150(1997)HAAKE RheoStress 6000(2007)2Thermo ScientificHAAKE RheoStress 6000 DesignOptional display/control unit. Monitoring data online even without a PC.The display/control unit of the HAAKE RheoStress 6000facilitates manual operation of lift movement and gap setting aswell as starting measuring and evaluation jobs with or without a PC. The colour display monitors rheological and instrument-specifi c data online.* DE 10 2004 050 753 A1; US 7,181,956 B2Fixed measuring head consisting of:• Drag cup motor with the lowest available inertia(10µNms2)• High resolution optical encoder (12 nrad)• Patented 4th generation air bearing system*• Temperature-compensated, normal-force sensor, based on strain-gauge technology for positive and negative normal force measurements Adapter for upper measuring geometriesReceiver for temperature control units and application oriented measuring cells Compact design by one-column aluminum framewith integrated controland power electronicsGlass plate withhigh resistance againstchemicals for easy cleaning34Universal Temperature Control Unit (UTC)The UTC consists of a universal controller box to regulate different temperature control units for cone and plate measuring geometries – Peltier as well as electrical. A Peltier unit covering a temperature range from -60°C up to 200°C enables quick and accurate responses to temperature changes. The electricaltemperature control unit, comprising a lower and an upper heater, can be converted to a measuring chamber with a tempered glass ring. This allows measurements up to 500°C under visual control and inert gas.Liquid temperature-controlled unitsA temperature control unit for cone & plate measuring geometries and two units withdifferent coaxial cylinder diameters are available. Liquid temperature-controlled units require either a circulator or cryostat and a bath liquid specifi c to the application. The Thermo Scientifi c product portfolio is based on many years of experience in temperature control to ensure a fi t with your requirements.Liquid temperature-controlled unit for coaxial cylindersPowerful Thermo Scientifi cHAAKE Phoenix IItemperature control unitto be used for liquidtemperature controlled unitsElectrically heated temperature control units: upper cone heating system, cylinder and lower plate unit5Our comprehensive accessory portfolio containscoaxial cylinders, plate/plate and cone/plate measuring geometries, custom-tailored dimensions, and made of various materials. Standard titanium measuring geometries have a low mass and therefore a low inertia. For measurements at higher temperatures, geometries with a ceramic shaft are available. Thesegeometries are characterized by a reduced heat transfer to the measuring head and a limited temperaturegradient within the sample. To avoid sedimentation or slippage, measuring geometries with serrated or sand-blasted surfaces are available. Disposable coaxial cylinder and plate/plate measuring geometries are available for cross-linking and curing materials.TypeShear rate (s -1) standardShear rate (s -1) high shear optionRecommended viscosity range (mPas)**Double gap cylinder system DG410.007 - 11 41534 2450.5 - 10 000Cylinder Ø 40 mm ISO 3219Z40 DIN 0.001 - 1 9315 793 5 - 100 000Cylinder Ø 20 mm ISO 3219Z20 DIN 0.001 - 1 9315 79350 - 1 000 000Cylinder Ø 10 mm ISO 3219Z10 DIN 0.001 - 1 9315 793500 - 10 000 000Cylinder Ø 41 mm DIN 53018Z410.002 - 3 50010 50010 - 100 000Cylinder Ø 38 mm DIN 53018Z380.001 - 1 4004 20030 - 500 000Cylinder Ø 31 mm DIN 53018Z310.0005 - 6601 98050 - 1 000 000Profiled cylinder Ø 38 mm DIN 53018Z38/S 0.001 - 1 5004 50050 - 100 000Disposable cylinder Ø 41 mm ISO 3219 Z41DIN/E 0.001 - 1 9315 79310 - 100 000Disposable cylinder Ø 25 mm ISO 3219 Z25DIN/E 0.001 - 1 9315 79350 - 1 000 000High shear cylinder 25 µm gap HS250.1 - 69 200207 600 5 - 100High shear cylinder 100 µm gap HS1000.1 - 15 00045 000 5 - 100Double cone Ø 60 mm, 1° angle DC60/10.006 - 9 00027 000 1 - 50 000Cone Ø 60 mm, 1° angle*C60/10.006 - 9 00027 000 2 - 100 000Cone Ø 35 mm, 1° angle*C35/10.006 - 9 00027 000100 - 1 000 000Cone Ø 20 mm, 1° angle*C20/10.006 - 9 00027 0001 000 - 1.0 E+08Plate Ø 60 mm PP600.003 - 4 70014 100 2 - 100 000Plate Ø 35 mm PP350.002 - 2 7008 100100 - 1 000 000Plate Ø 20 mmPP200.001 - 1 5704 7101 000 - 1.0 E+08Plate Ø 35 mm serratetd PP35/S 0.002 - 2 7008 100100 - 1 000 000Plate Ø 20 mm serratetdPP20/S0.001 - 1 5704 7101 000 - 1.0 E+08Measuring Geometries for Thermo Scientific HAAKE Rheometers6Selection of measuring geometriesHigh-temperature geometries with ceramic shaft at different diametersTitanium geometries with measuring plate cover with same diameter for optimized gap fi lling; sample cover with integrated solvent trapSelection of special measuring geometrieswith serrated surfaces to prevent slippage, with helical groovings to prevent sedimentation, vane rotors and rotors with glass coversCoaxial cylinders according to DIN 53019 in different sizes7Pressure cellDifferent versions of pressure cells for pressuresup to 400 bar and temperatures up to 300°C areavailable. A Hastelloy® version can be used withcorrosive samples.Application examples:Crude oil, drilling fl uids, foodUV cellFor tests on UV-hardening materials UV cells areavailable: a standard version and an individualmeasuring cell with freely confi gurabl e distancesfor optical components such as light guides,condensors and glass plates.Application examples:Coatings, dental material, contact lensesMeasuring cell for construction materialsA special measuring cell with a fl exible profi le formeasurements on building materials is offered.Thanks to the interchangeable profi le lamellas themeasuring cell can be easily and quickly adaptedto new materials. The design avoids slippage layerformation.Application examples:Cementitious pastes and mortars, samples withbig particlesDouble cone geometryHighly sensitive measuring cell consisting of baseplate, cone and cover designed as solvent trap usingoil as sealing.Application examples:For low viscous materials available in small quantityonly or with a tendency of evaporationDisposable measuring geometriesPlate/plate measuring geometries with differentdiameters and coaxial cylinders out of aluminiumare available in a disposable version.Application examples:Samples which are diffi cult to remove, e.g. cross-linking and curing materialDouble coneLidSampleOil sealBase plate with cylindrical wall8Universal holder for individual containersHolder with individually adjustable clamps for sample containers like glass jars, cans, beakers and cups.Application examples: Paints, inks, food3 point bending toolSample fi xture to investigate the bending and breaking behaviour of a wide range of materials.Application examples: FoodSelected Application Notes:V-217V-222Breaking Strength of ChocolateV-225Selected Product Information:P-1P-2Sample loading tool for measurements on pellets and powders using a plate/plate- or cone/plate-measuring geometryP-3Trimming tool to remove overfi lling in a plate/plate- and cone/plate-measuring geometryWe are committed to offering comprehen s ive product and application solutions. Our application specialists will be glad to assist and consult with you.9Components• RheoWin JobManager for manual instrument control, automated measuring routines ("jobs") and report printout or export• RheoWin DataManager for interactive evaluation of measured data as well as sophisticated tools forcreating reports and generating templates for graphs, tables and screen views• RheoWin UserManager for comprehensive user management regarding user access control and assignment of specifi c access rightsThermo ScientificHAAKE RheoWin 3 SoftwareWe work closely with our customers to provide the most user-friendly software for rheological instruments. HAAKE RheoWin software is continuously aligned to customer needs and requirements. The comprehensive software can be used for all HAAKE viscometers and rheometers. The software is customized to offerconvenient operation with default settings for beginners and full access to all re l evant measuring parameters for advanced rheo l ogists.Functionality• Manual control for preliminary testing, fordisplaying selected parameters and for saving manually acquired data• Convenient creation and customization of measuring jobs using predefi ned measuring and evaluation elements via "drag and drop" techniques• Fully automated measuring, data evaluation and documentation within a job• Real multitasking – simultaneousmeasurements using several instruments and data evaluation• Freely confi gurable data export (ASCII, Excel, etc.)• Filing graphs in various formats (pdf, etc.)• Numerous algorithms for data analysis (e.g. interpolation, regression and automated quality control)• Automated backup fi le generation for retrieval of confi guration data • Availability of saving the raw data andnumerical values for quality control purposes10Customization• User-defi ned defi nitions of paths and subdirectories for data fi ling• Push-button selection of one out of 12 languages• Modular generation of a fi le name and automated fi ling in a predefi ned subdirectory• Selectable units and arbitrary labeling of axes• Links to data bases (SAP, LIMS, etc.)• Online display of all corrections to improve measuring data (Micro Stress Control)• Snap-shot-test for quick characterization of an unknown sample• RheoWizard help feature for expert knowledge to set up a measuring job • Customizable report templates to permit the use of custom logos and textOptional tools• Effi cient tool to make RheoWin compliant with FDA 21 CFR Part 11• Polymer software consisting of TTS (Time Temperature Superposition) togenerate master curves, spectra and MWD (Molecular Weight Distribution) The latest version of the HAAKE RheoWin software is provided free-of-charge at /mc.Definition of a measuring and evaluation procedureData evaluation using Lissajous plots1112Min. torque rotation CS 200 nNm Min. torque rotation CR 200 nNm Min. torque oscillation CS 200 nNm Min. torque oscillation CD 200 nNm Max. torque 200 mNm Torque resolution 0.5 (a) nNm Motor inertia 10 µNms 2Angular resolution 12 (b) nrad Min. angular velocity CS 10-7 min -1Min. angular velocity CR 10-5 min -1Max. angular velocity 1500, 4500 (c) min -1Min. oscillation frequency 10-5 Hz Max. oscillation frequency 100 Hz Min. Normal force 0.01 N Max. Normal force 50 (d) N Normal force resolution 0.001 N Min. lift speed 0.2 µm/s Max. lift speed 7 mm/s Lift positioning accuracy 0.5 µmTemperature range -80 to +500 (e) °C Dimensions (W x D x H)400 x 400 x 780 mm Weight42 kgThermo ScientificHAAKE RheoStress 6000 Specifications(a) at the lowest torque (b) internal resolution (c) high shear option(d) in both positive andnegative direction(e) depending on temperaturecontrol unit13Measuring Tack: Sample: Double-sided tape Mea suringTa Ta ck:S a Sa mpl e:e: Dou ble si -si ded ta ta peSelected MeasurementsLow torque measurementsThe 4th generation diffusion air-bearing is the result of 25 years of development and manufacturing experience. Our latest advances in air-bearing technology plus accurate residual torque correction (MSC = Micro Stress Control), allow for measurements down to 200 nNm.HAAKE RheoStress 6000 – Air-bearing performanceCS-Mode: Amplitude Sweeps Sample: 1 Pas Oil14Application laboratoriesOur fully equipped laboratories refl ect our applicationsexpertise and commitment to innovation. Ourlaboratories are in constant demand for testingcustomer samples and developing and optimizingpioneering applications.Seminars and training coursesCustomers are offered a comprehensive trainingprogram and selected courses in our internationaltraining center in Karlsruhe, Germany. Basic andadvanced rheology seminars and training on specialapplications are held worldwide. In-house seminarsare also offered to our customers.Services to meet individual requirementsWe offer a wide range of professional services to avariety of industries to help our customers improve theirproductivity and decrease costs. Individual solutions tosupport our customers and maintain their instrumentsare a standard service. Additional service packages,warranty enhancements or premium service packages,which can be bundled, allow our customers to plan andbudget for maintenance and service support. All serviceis provided by skilled and certifi ed service engineers. ServicesWe are committed to customer support, includingspecifi c service products, short response times, andcustomer-specifi c solutions. To quickly meet ourcustomers’ requirements, we offer a comprehensiverange of services.15cThermo Fisher Scientific and Fisher Scientific provides a Visit www.thermofi .Thermo ScientifiThermo Fisher Scientifi c solutions forBeneluxChina FranceDieselstr. 476227 Karlsruhe/mc Indiainfo.mc.in@thermofi United KingdomUSATel. 603 436 9444Process Instruments。

流变仪操作流程（总2页）本页仅作为文档封面，使用时可以删除This document is for reference only-rar21 year.March流变仪操作规范LI的：使操作人员能够规范操作流变仪，保证流变仪运行正常，同时利于我们对流变仪的保养。

适用范围：适用于流变仪操作人员操作流程：1.开启流变仪控制电脑：应注意在开启电脑前，要检查混炼器是否安装完整，以及热传感器及加热电源接口是否对应。

2.通电检查完毕正常后，打开设在流变仪主机背面的总电源开关，顺时针旋转90 度至“ON”为开通，逆时针旋转90度至“OFF”为关断，当给流变仪主机通电时，电源开关左侧的电源指示灯会亮起，说明主机通电正常。

3・运行控制平台软件当流变仪主机通电后，可以运行已经安装在计算机中的控制软件。

可以直接双击桌面上的主机图标运行流变仪控制平台软件。

软件平台中选择正确的实验平台流变仪在正常工作时，一般为主机连接一台混炼器或挤出机进行工作，本实验室的流变仪采用混炼器为实验平台。

选择正确的通讯端口本设备只有一个通讯串口，选择C0M1通讯串口即可。

设置合理的实验工艺条件在设定列表下面，根据实际需要设定合适的实验温度，以及实验转子转速。

在平台选择列表下方的8个选项中，T1-T4代表1区温度至4区温度，Tm代表料温，Tq代表扭矩，P代表压力，Sp代表圧力，分别选中或取消它们表示启动相应的测量及控制。

对于本设备所用的混炼器平台需选中T1 T2 T3 Tm Tq及Sp并取消T4 P 启动通讯在控制平台界面的右上角点击“启动通讯”按钮启动通讯，启动过程要持续儿秒的时间，完成后，启动按钮中的文字显示为“停止通讯”以及左边的绿色指示灯亮起，同时“启动加热”及“启动电机”按钮变为可用状态注：如果设备启动通讯前未进行过加热升温的操作，则通讯开始后的测量区看到的温度测量值应为室温（测量区中黃色显示数字为设定值，红色显示数字为测量值），此时应使用水银温度计或其他类型的温度计核对室温测量值是否准确，如有偏差可使用修正功能进行温度修正。