彭博试用报告

第1篇一、报告概述本次测试报告针对某公司最新研发的新产品进行了全面的测试，包括外观设计、功能性能、操作体验、安全性能等方面。

通过本次测试，旨在全面评估新产品的品质，为后续生产和市场推广提供参考依据。

二、测试背景某公司作为一家创新型企业，近年来致力于研发具有市场竞争力的新产品。

本次测试的新产品为公司最新研发的智能家电产品，具有智能化、节能环保等特点。

为确保产品品质，公司委托专业测试机构对新产品进行严格测试。

三、测试项目及结果1. 外观设计测试结果显示，新产品外观简约大方，符合现代家居风格。

产品尺寸适中，便于摆放。

颜色搭配合理，给人视觉上的舒适感。

2. 功能性能（1）智能化：新产品具备智能语音控制功能，用户可通过语音指令操作家电，提高生活便捷性。

（2）节能环保：产品采用节能设计，功耗低，有助于降低用户电费支出。

（3）安全性能：产品具备多重安全保护措施，如过载保护、漏电保护等，确保用户使用安全。

3. 操作体验（1）操作简便：产品操作界面简洁明了，用户可快速上手。

（2）反应速度快：产品响应速度快，用户体验良好。

4. 安全性能（1）漏电保护：产品具备漏电保护功能，可有效防止漏电事故发生。

（2）过载保护：产品具备过载保护功能，防止因过载导致设备损坏。

四、测试结论通过本次测试，新产品在各方面表现良好，具备以下优点：1. 外观设计符合现代家居风格，尺寸适中，便于摆放。

2. 产品具备智能化、节能环保等特点，满足用户对高品质生活的需求。

3. 操作简便，反应速度快，用户体验良好。

4. 安全性能可靠，具备多重保护措施，确保用户使用安全。

五、改进建议1. 优化产品外观设计，提升产品整体美感。

2. 丰富产品功能，满足更多用户需求。

3. 提高产品性价比，扩大市场占有率。

4. 加强售后服务，提升用户满意度。

六、总结本次测试对新产品的品质进行了全面评估，结果表明，新产品具备良好的品质和市场竞争力。

在后续生产和市场推广过程中，我们将根据本次测试结果，对产品进行持续优化，以满足广大用户的需求。

Spirent RTSP压力测试仪器试用报告Prepared by拟制芦跃峰45321 Date日期2005-7-20Reviewed by 评审人Date日期yyyy-mm-ddApproved by批准Date日期yyyy-mm-ddAuthorized by签发Date日期yyyy-mm-ddHuawei Technologies Co., Ltd.华为技术有限公司All rights reserved版权所有侵权必究（TST01T04 V2.0/ IPD-PTM V2.0 / for internal use only）（TST01T04 V2.0/ IPD-PTM V2.0 / 仅供内部使用）修订记录目录1 概述 (5)1.1 试用原因 (5)1.2 仪器的主要用途 (5)1.3 仪器的性能指标 (5)1.4 仪器的主要功能描述 (5)2 试用时间、地点、人员 (5)3 测试组网环境 (5)4 功能测试 (6)4.1 支持请求字符串格式测试： (6)4.2 多用户请求多文件 (9)4.3 多用户请求单文件 (12)4.4 调度测试： (12)5 测试结论 (13)5.1 功能完备性 (13)5.2 操作方便性 (13)5.3 综合结论 (14)Spirent RTSP压力测试仪器试用报告关键词：RTSP 压力测试试用报告摘要：本文是Spirent 压力测试仪器的试用报告。

文中首先介绍试用背景和压力测试仪器的基本情况，然后描述了试用压力测试仪器进行多用户多文件RTSP压力测试使用过程。

最后根据试用过程和结果，对该测试仪器在功能性能特性和安装使用方便性等方面进行了评价。

缩略语清单：1概述1.1试用原因IPTV解决方案处理大量用户请求的能力是非常重要的性能指标，也是运营商非常关心的性能指标，所以在解决方案的测试中急需对MDN系统和HMS服务器处理大量用户请求压力的测试。

1.2仪器的主要用途模拟大规模RTSP客户端对媒体服务器发起并发请求，验证媒体服务系统在大负荷情况下的运行能力。

彭博用户电脑配置要求简体中文2019年12月1日版本：5.0* 若需在同一台电脑上运行多个CPU/内存占用率较高的应用程序，用户可能需要使用比推荐规格更高级的硬件。

若用户的电脑规格为最低配置，可能出现性能下降的问题* 交易系统用户包括：AIM/SSEOMS/EMSX/ETOMS/TSOX/FXGO* 终端安装不支持基于ARM的CPU* Windows7（仅64位）到2021年1月停止支持* 所有32位版本Windows 均不支持。

2020年1月起，将停止新的安装和已安装的软件升级* 2021年1月起，16 GB RAM将为最低配置要求用户电脑配置要求基于主要用户的需要，我们在上一页概述了用户电脑的配置要求。

如果用户同时使用彭博专业服务®以及其他应用程序（微软Office系列以及第三方交易委托管理系统等），可能需要更高规格的配置。

对于借助灵活屏及/或Excel跟踪市场瞬息变化的用户，应考虑将推荐配置作为最基本的要求，以获得最佳用户体验。

虚拟桌面基础架构（VDI）和远程环境▪各种虚拟桌面基础架构（VDI）对彭博专业服务®系统的支持取决于相关VDI解决方案是否能够提供与本文件第2页所述相同（或更佳）的表现，以及PC是否满足最低配置要求。

▪在虚拟桌面基础架构或远程环境下，不允许使用传统（开放）的彭博授权。

仅彭博自由型授权适用VDI和远程环境。

▪由于多种因素，虚拟化和远程桌面技术可能导致彭博专业服务®系统的性能下降。

为了避免这种情况的发生，彭博建议遵循虚拟化供应商的参考模型和容量规划指南，以便为VDI解决方案的用户提供与桌面PC用户相同或更好的用户体验。

此外，在为彭博终端用户部署VDI和远程解决方案时应仔细考量下列因素：▪基于本文件第2页的建议，针对每个虚拟机会话分配足够的CPU、内存和硬盘空间。

▪网络延迟和带宽（VDI群集至桌面）。

▪实时监控组件数目（灵活屏、Excel表格等）▪对每月彭博软件更新的自动支持。

饮料机实验报告简介本实验是对一台饮料机进行了一系列的测试和分析。

饮料机是一种自动售货机，可以提供各种类型的饮料给消费者。

本次实验主要包括以下几个方面的内容：饮料机的功能测试、用户体验评估以及故障分析。

通过实验的结果，我们可以了解到饮料机的性能和可靠性，并针对实验过程中发现的问题提出相应的改进建议。

方法我们选择了一家知名的饮料机制造商的产品进行了测试。

实验过程中，我们对饮料机的功能进行了全面的测试，包括选择饮料、支付、出货、找零等。

同时，我们还通过观察用户的使用体验，收集了用户在使用饮料机时的反馈和意见。

功能测试在功能测试中，我们分别测试了饮料机的各项功能，并评估了其性能和准确度。

选择饮料我们测试了饮料机的选择饮料功能。

测试结果表明，饮料机能够准确地根据用户的选择，将选定的饮料推送到出货口。

支付我们测试了饮料机的支付功能。

测试结果表明，饮料机能够正常地接收各种支付方式，包括硬币、纸币和移动支付等。

支付过程中，饮料机能够快速、准确地辨识各种面额的货币，并显示相应的支付状态。

出货我们测试了饮料机的出货功能。

测试结果表明，饮料机能够快速、稳定地将选定的饮料送到出货口。

找零我们测试了饮料机的找零功能。

测试结果表明，饮料机能够在支付完成后，准确地计算出所需找零的金额，并将找零退还给用户。

用户体验评估在用户体验评估中，我们收集了用户在使用饮料机时的反馈和意见，以评估饮料机的易用性和舒适度。

显示界面用户对饮料机的显示界面给予了较高的评价。

他们认为显示界面清晰易懂，能够准确地提示用户的操作。

操作流程用户对饮料机的操作流程感到满意。

他们认为选择饮料、支付和取饮料的过程简单明了，不需要额外的指导就能顺利完成。

售货速度用户对饮料机的售货速度表示满意。

他们认为饮料机出货迅速，不需要等待过长的时间。

出货口用户对饮料机的出货口表示较为满意。

虽然有时饮料会被卡住或者掉落不稳定，但总体来说不影响用户的使用体验。

故障分析在本次实验中，我们还发现了一些饮料机的故障或者改进的地方。

屈臣氏新奇试报告一、背景简介屈臣氏是一家世界知名的零售药妆连锁品牌，提供各类健康、美容和个人护理产品。

作为全球领先的零售药妆品牌，屈臣氏不断推出新奇的产品，以满足消费者的需求和创新潜力。

本文将对屈臣氏的新奇产品进行试报告，总结其特点和消费者反馈。

二、产品一：磁力面膜1. 产品简介屈臣氏最新推出的磁力面膜，采用了磁力技术来提升面膜的效果。

这款面膜含有特殊的磁性成分，配合磁力棒，可以加速血液循环，同时有效吸附面膜上的污垢和毒素。

面膜的质地丝滑，使用后皮肤变得更加紧致和明亮。

2. 使用方法使用磁力面膜非常简单。

首先，将面膜均匀涂抹在脸上，避开眼睛和嘴唇周围。

然后，取出磁力棒，将其包裹在纸巾中，将磁力棒放在脸部附近，轻轻按摩皮肤。

磁力棒会吸附面膜上的污垢和毒素，然后用纸巾清洁磁力棒上的污垢。

最后，用清水清洁面部，完成整个过程。

3. 消费者反馈根据消费者的反馈，磁力面膜在使用后能够明显改善皮肤质地和提亮肤色。

许多消费者表示，他们的皮肤变得更加紧致和有光泽。

此外，磁力面膜的使用过程也被消费者称赞为非常舒适和便捷。

然而，一些消费者表示，他们没有明显感受到磁力的作用，对于面膜的吸附效果持保留态度。

三、产品二：香水喷雾笔1. 产品简介屈臣氏的香水喷雾笔集合了香水和笔的功能，可以方便地在任何时候进行补充香水。

这款产品采用了独特的设计，不仅方便携带，还可以用作普通的书写工具。

香水喷雾笔有多种香型可供选择，包括花香、果香和清新香气，每一种香气都能够给人以独特的感受。

2. 使用方法使用香水喷雾笔非常简单。

首先，将笔盖拧下，露出笔芯。

然后，按住笔身上的按钮，喷射适量的香水在身体任何部位或者衣物上。

最后，将笔盖再次拧紧，即可完成使用。

3. 消费者反馈根据消费者的反馈，在使用香水喷雾笔后，他们感到非常方便和实用。

无论是在办公室、学校还是旅行中，随时随地都可以补充香水，给予自己一种清新的感觉。

此外，消费者还对香水喷雾笔的持久度表示满意，喷洒后香味能够持续一段时间。

Group standard TL 957Issue 2011-11 Class. No.:8FG00D Descriptors:silicate glass, vehicle window pane, glass pane, window glassSilicate Glass for Vehicle WindowsQuality RequirementsPrevious issuesTL 957: 1966-10, 1968-07, 1970-05, 1975-06, 1981-11, 1982-09, 1984-09, 1985-07, 1985-11, 1986-08, 1987-01, 1988-03, 1988-06, 1989-07, 1993-07, 1997-07, 1999-02, 2000-06, 2000-09, 2001-11, 2002-10, 2006-02, 2008-10, 2011-09ChangesThe following changes have been made to TL 957: 2011-09:–Typographical mistakes in section 12.2 "Testing of reflection optics on vehicle window glasses" corrected: Distance from the window glass to the camera now 3 m instead of 1,6 m.Page 1 of 36 Always use the latest version of this standard.This electronically generated standard is authentic and valid without signature.The English translation is believed to be accurate. In case of discrepancies, the German version is alone authoritative and controlling.Numerical notation acc. to ISO/IEC Directives, Part 2.Page 2TL 957: 2011-11DContentsPageScope .........................................................................................................................4Description .................................................................................................................4Abbreviations .............................................................................................................5Requirements .............................................................................................................5General requirements ................................................................................................5Mandatory documentation ..........................................................................................5Official type approval ..................................................................................................5Specimen sections .....................................................................................................5Marking (glass labeling) .............................................................................................6Location of marking ....................................................................................................6Dimensions of markings .............................................................................................7Logo ...........................................................................................................................7Manufacturer's code, company name, or logo ...........................................................7ECE approval mark ....................................................................................................7USA registration .........................................................................................................7Date ............................................................................................................................7Additional marking ......................................................................................................7Line spacing ...............................................................................................................8Lettering color ............................................................................................................8Character spacing ......................................................................................................8Content of marking .....................................................................................................8Delivery ......................................................................................................................8Edge treatment ...........................................................................................................8Scratches and other general flaws .............................................................................9Dimensional requirements .........................................................................................9Material requirements for laminated safety glass .......................................................9Requirements for composite quality ...........................................................................9Connecting films .........................................................................................................9Aging behavior ...........................................................................................................9Special requirements ...............................................................................................11Chemical interaction .................................................................................................11Weathering behavior ................................................................................................11Lightfastness ............................................................................................................11Moisture resistance ..................................................................................................11Boiling test ................................................................................................................12Corrosion resistance of infrared reflecting laminated safety glass ...........................12Mechanical requirements .........................................................................................12Tempered safety glass .............................................................................................12Ball drop tests ..........................................................................................................12Ball drop test "ANSI" ................................................................................................12Ball drop test "ECE" .................................................................................................12Fracture tests ...........................................................................................................12Side and rear window glasses .................................................................................12Windshield ................................................................................................................12Impact test ................................................................................................................12Abrasion test ............................................................................................................12Laminated safety glass and laminated heat-strengthened glass .............................13Dart tests ..................................................................................................................13Ball drop test ............................................................................................................1312344.14.24.34.44.54.5.14.5.1.14.5.1.24.5.24.5.2.14.5.2.24.5.2.34.5.2.44.5.2.54.5.34.5.44.5.54.64.75677.17.1.17.1.27.1.37.1.3.17.27.37.47.57.688.18.1.18.1.1.18.1.1.28.1.28.1.2.18.1.2.28.1.38.1.48.28.2.18.2.2Page 3TL 957: 2011-11DBall drop test "ECE" .................................................................................................13Puncture resistance .................................................................................................13Puncture resistance "ANSI" .....................................................................................13Puncture resistance "ECE" ......................................................................................13Abrasion test ............................................................................................................13Optical requirements (windshield, side, and rear window glasses, sun/glasssun roofs) .................................................................................................................13Float structure ..........................................................................................................13Orientation of window glass .....................................................................................13Optical deflection ......................................................................................................13Optical deflection for diagonal transparency ............................................................15Optical deflection for optical focal line at bottom ceramic edge ...............................15Transmission optics of wire-heated laminated safety glass windshields .................15Transmission optics of wire-heated laminated safety glass rear windows ...............16Laminated safety glass float optics ..........................................................................16Transmission optics of side glass from continuous prestressing processes ............16Permissible ghost image angles ..............................................................................17Spectral transmission and color coordinates on vehicle window glass ....................17Light transmission T L ................................................................................................17Color coordinates .....................................................................................................17Specification of vehicle window glasses ..................................................................18Sun/glass sun roofs ..................................................................................................19Reflection optics on vehicle window glass and sun/glass sun roofs ........................20Test report ................................................................................................................20Pre-production testing ..............................................................................................20Complete test report .................................................................................................20Optical defects of screen printing .............................................................................22Light transmission ....................................................................................................22Full print, permissible defects in the printed image, all window glasses ..................22Door window glasses ...............................................................................................22Screen/decorative print ............................................................................................22Measurement of the screen print .............................................................................23Measurement instructions ........................................................................................23Specimen preparation ..............................................................................................23Special requirements ...............................................................................................23Silver printing on window glass ................................................................................23Adhesion of heating and/or antenna imprint ............................................................24Laminated safety glass ............................................................................................24Adhesion of the bond ...............................................................................................24Internal stresses .......................................................................................................24Tempered safety glass .............................................................................................25Determination of the surface compressive stress ....................................................25Stresses at window glass edge ................................................................................25Laminated heat-strengthened glass .........................................................................26Adhesion of the bond ...............................................................................................26Visual inspection ......................................................................................................26Determination of the surface compressive stress ....................................................26Stresses at window glass edge ................................................................................26Screen print resistance ............................................................................................27Evaluation of the baked ink porosity by means of an isopropanol wipe test ............27Optical test methods ................................................................................................278.2.2.28.2.38.2.3.18.2.3.28.2.499.19.29.39.3.19.3.29.49.59.69.79.89.99.9.19.9.29.9.39.9.49.109.119.11.19.11.21010.110.210.310.410.4.110.4.210.4.31111.111.211.311.3.111.3.211.411.4.111.4.211.511.5.111.5.211.5.311.5.411.611.712Page 4TL 957: 2011-11DTesting of reflection optics on vehicle window glasses ............................................28Test method for scratches and other general flaws .................................................28Determination of solar energy transmittance T UV .....................................................28Determination of light transmission T L ......................................................................28Determination of solar energy transmittance T E .......................................................29Determination of solar energy transmittance T IR ......................................................29Testing of color values .............................................................................................29Applicable documents ..............................................................................................29Bending technologies ...............................................................................................31Optics data sheet .....................................................................................................32Glass and aspect flaws ............................................................................................33Evaluation zones of glass and aspect flaws .............................................................33Type and description of glass defect ........................................................................33Chips ........................................................................................................................33Scratches and scrapes .............................................................................................33Hairline scratches .....................................................................................................33Film projection ..........................................................................................................34Punctiform defects/inclusions ...................................................................................34Foreign matter ..........................................................................................................34Inter-layer bubbles/dull spots ...................................................................................35Dot resolution ...........................................................................................................35Holes (36)12.212.312.412.512.612.712.813Appendix A Appendix B Appendix C C.1C.2C.2.1C.2.2C.2.3C.2.4C.2.5C.2.6C.2.7C.2.8C.2.9ScopeThis standard specifies requirements and tests for vehicle glass panes and sun roofs/glass sun roofs made of silicate glass.DescriptionQuality requirements according to TL 95712Page 5TL 957: 2011-11DAbbreviationsTSG Tempered safety glass WS WindshieldRWG Rear window glass Compr. pression bendingTB Transverse bending in vehicle longitudinal axis ROC Rate of change s DistanceSWG Side window glass Grav. b.Gravity bending t TimeT TemperatureDWG Door window glassHSG Heat-strengthened glass LSG Laminated safety glassRequirements General requirementsApproval of first supply and changes according to Volkswagen standard VW 01155.Environmental requirements according to VW 91100 must be fulfilled.Vehicle glass panes made of silicate glass must completely fulfill the applicable requirements specified in national regulations. The most important requirements are:USA US Regulation 571.205EuropeECE-R43For legally required tests, the current version of the law must always be applied.Mandatory documentationSections marked with a documentation bar are subject to mandatory documentation. The docu‐ments must be kept on file for 15 years.Official type approvalThe window glasses are type-specific; only the officially approved design must be manufactured for standard production. General type approval must be submitted to the department responsible for type approval as a supplement to the vehicle registration information.Specimen sectionsIf specimen sections are used, the quality must conform to the legal requirements for the finished part, and it must be ensured that the finished part also conforms to the legal requirements.Specimens must be produced from the same material as used in standard production and under 3 4 4.14.24.34.4Page 6TL 957: 2011-11DMarking (glass labeling)Legible from vehicle exterior in as-installed position. (see figure 1 and figure 2)The glass labeling must be legible and permanent.Marking example: Main label LSG with CCC. (figure 1)TSG with CCC and dark glass, see figure 2.Legend 1Logo2Company name in standard letter‐ing3USA registration number4European registration number 5CCC registration number (China)6Possible additional marking 7Date marking8Approval mark for China certifica‐tion9Country of registration, e.g., E1 for Germany10Marking according to ECE-R43,windshield as laminated safety glassFigure 1 – Windshield, green glassLegend 1Marking according to ECE-R43, light transmission <70% (dark glass)Figure 2 – Side window or rear window glass (tempered safety glass), dark glassLocation of marking4.54.5.1Page 7TL 957: 2011-11DTable 1 – MarkingWindow glass type Location Windshield Bottom right Rear window glass Bottom leftFixed side window glass Rear bottom Hinged windowTriangle window glass, front door Triangle window glass, rear door Sliding windowDoor crank window glass Dimensions of markingsHeight ≤24,5 mm Width ≤31 mmLogoVW 10514-C 6 as per VW 10514 or as per VW 10513Manufacturer's code, company name, or logoFont size 2 mmECE approval marka ∅ ≥ 8 mm, E a 2, font sizea3USA registration Font size 1,8 mmDateDateas per VDA 261Font size 1,8 mmAdditional markingA Laminated safety glass with acoustics function C Clear glassB Blue heat-insulating glass or dark glass G Gray heat-insulating glass or dark glassIR Laminated safety glass with infrared reflective coatingIR-HLaminated safety glass with heated infrared reflective coating 4.5.1.1 4.5.1.24.5.2 4.5.2.1┌4.5.2.2┐ 4.5.2.3 4.5.2.4Page 8TL 957: 2011-11DLine spacingPermissible minimum dimension according to ECE-R43 of 1 mm Lettering colorColorBrilliant blackSee section 10.4.1 for color values.Character spacingClose-spaced lettering according to DIN 1451-4.Alternatively, according to DIN 1451-3, code letter E.Lettering size tolerance: +0,2 mm Content of markingAs per drawing and table 1.DeliveryThe window glasses must not exhibit soiling that would impair testing, performance, or further pro‐cessing.Particular packaging requirements must be agreed upon with the responsible engineering depart‐ment in each case.Edge treatmentEdges must generally be treated according to to SAE J673 Type 1.The following additionally applies to door crank window glasses (above the window slot strip):–Transition must not have sharp edges, i.e., the transition to the ground edge must be smooth.–Below the window slot strip (in the invisible area), SAE J673 Type 3 is permissible.For window glasses with flush injection point, edge treatment according to Volkswagen type 1 ap‐plies:–All around, fine finish, crowned edge, matte finish –Minimum radius = 2/3 of glass thickness –Maximum radius = 2 x glass thickness4.5.2.54.5.3 4.5.44.5.54.64.7Page 9TL 957: 2011-11DScratches and other general flawsDull spots, soiled and discolored areas as well as chips are not permissible.Permissible aspect flaws: See appendix C.In the visible area, the window glasses must be free of bending fixture markings and edge spar‐kles.The following additionally applies to infrared glazing:If the window glass exhibits color inhomogeneities (spots, triangles, stripes), it must be rejected.Window glasses with rough gold spots and corona defects (also in string-of-pearl arrangements)must be rejected.The marked area of the coating (decoating) must be removed without residue and without visible machining traces.The test method for scratches is described in section 12.3.Dimensional requirementsChecking of the dimensions of fixed and lowerable window glasses must be performed as per the measuring method specified in the corresponding window glass drawing. Preferably, a measuring data set must be compiled with enveloping surface tolerance and specified RPS points and meas‐uring points. VW 01055 applies as the basis.A tolerance is defined for each measuring point. Waviness within the tolerance is restricted for a sequence of measuring points. Additionally, the angle deviation of measuring point sequences may be defined.Material requirements for laminated safety glass Requirements for composite quality Connecting filmsWithin the framework of technical engineering approval (BMG – German abbreviation) and/or first sample delivery, the product designations must be stated explicitly.–Film based on polyvinyl butyral (PVB)–Heat insulating film based on polyvinyl butyral/polyester (PVB/PET)Aging behaviorBehavior after aging in constant climates As per PV 2044:KL1300 h KL3300 h KL472 h567 7.1 7.1.17.1.2Page 10TL 957: 2011-11D–No delamination or blistering inside the laminated safety glass –No shrinking of the PVB film–No formation of waves in the PVB/PET film compositeSpecial requirementsRequirements after environmental cycle aging (KWL) 2 as per PV 2044Scope of testing 2 cycles–No hazing in the edge area after the last reconditioning in standard climate at +23 °C/50% rel‐ative humidity.–No delamination in the edge area of the laminated safety glassRequirements after constant-climate environmental aging KL3 as per PV 2044, with the following deviationsRecirculated air tem‐perature +50 °C Duration 300 h–Permissible hazing in the edge area after removal from humid aging at elevated temperature ≤ 3mm–No hazing in the edge area after reconditioning in standard climate at +23 °C/50% relative hu‐midity; duration 17 h–No delamination in the edge area of the laminated safety glassRequirement after short-term heat test at 120 °C, duration 2 h (testing is performed ≥7 days after manufacturing of the laminated safety glass).–No blistering in the edge area of the laminated safety glass –No formation of waves in the PVB/PET film compositeChemical interactionTesting according to PV 2503.Subjective evaluation: spread discolorations are not permitted (detectable especially in reflection).Yellowing of the edge is permissible.Permissible deviations measured at one point:ΔE* < 1,3 calculated with the formula defined in section 9.9.Weathering behavior3 year-cycles of artificial weathering according to PV 3929 and PV 3930, without complaint. Resist‐ance to open-air weathering according to VW 50185.LightfastnessAccording to ANSI Z 26.1 – 5.1For further requirements, see drawing specifications for laminated safety glass.Moisture resistanceAccording to ANSI Z 26.1 – 5.37.1.37.1.3.17.2┌7.3┐┌7.4┐Boiling testAccording to ANSI Z 26.1 – 5.4Corrosion resistance of infrared reflecting laminated safety glassTesting according to PV 2504.No delamination or color change permissible in the edge area of the laminated safety glass.Mechanical requirements Tempered safety glass Ball drop testsBall drop test "ANSI"According to ANSI Z 26.1 – 5.6Ball drop test "ECE"According to ECE-R43 and DIN 52306Fracture testsSide and rear window glassesFracture test "ANSI"According to ANSI Z 26.1 – 5.7Fracture test "ECE"According to ECE-R43WindshieldAccording to ECE-R43Impact testAccording to ANSI Z 26.1 – 5.8Abrasion testAccording to ECE-R43 and ANSI Z 26.1 – 5.18┌7.5┐ 7.68 8.1 8.1.1┌8.1.1.1┐ 8.1.1.28.1.2 8.1.2.1┌8.1.2.1.1┐ 8.1.2.1.2 8.1.2.2┌8.1.3┐8.1.4Laminated safety glass and laminated heat-strengthened glass Dart testsAccording to ANSI Z 26.1 – 5.9Ball drop testBall drop test "ANSI"According to ANSI Z 26.1 – 5.12Ball drop test "ECE"According to ECE-R43Puncture resistancePuncture resistance "ANSI"According to ANSI Z26.1 – 5.26Puncture resistance "ECE"As per ECE-R43 and DIN 52306Abrasion testAccording to ANSI Z 26.1 – 5.18Optical requirements (windshield, side, and rear window glasses, sun/glass sun roofs)Float structureThe float structure is always parallel with the vehicle longitudinal axis.Orientation of window glassOrientation of the fire/outer side according to drawing or according to section 11.1.Changing of the orientation during standard production is only permissible in agreement with the responsible engineering department.Optical deflectionThe fields of view in the windshield are principally defined according to the drawing.If there is no data in the drawing for defining the fields of view, ECE-R43 applies.The area outside field of view B is defined as fields of view C and D.In this case, field of view C is next to and below field of view B, and field of view D is above field of view B.8.2 ┌8.2.1┐8.2.2┌8.2.2.1┐ 8.2.2.28.2.3┌8.2.3.1┐ 8.2.3.2┌8.2.4┐9 9.19.29.3Optical distortions must be measured in the as-installed position by vertical and horizontal light de‐flection (see PV 2501).For optical distortion/refractive power in windshields, the limits in table 2 apply.The limit of field of view A in table 2 applies to the optical distortion/refractive power for side win‐dow glasses; the limit of field of view B applies to rear window glasses.For rear window glass, separate fields of view with corresponding limits may be defined in the drawing.The refractive power D absolute = ΔαΔxis calculated using the difference in deflection angle from tworays separated by Δx = 12 mm (in deviation from ECE-R43).–| D max | and | D min | ≤ limit D absolute–D max - D min ≤ limit ROCThe refractive power is measured in the laboratory for pre-production testing and sample delivery, e.g., with the LABSCAN Screen2D measuring instrument of ISRA.Details are governed by PV 2501.If the supplier chooses an equivalent measuring system, proof of correlation with the LABSCAN-Screen2D measuring instrument must be provided. In addition, test equipment capability must be demonstrated on the basis of VW 10119. The setup instructions for the measuring system used must be agreed upon with the EGNM/O Department.The measurement parameters 4/5/12 and SAB 13 must be set, unless other specifications apply. The window glass must be aligned with respect to the axis of rotation of the LABSCAN Screen2D instrument according to the setup instructions. Setup instructions will be drawn up for each vehicle project in collaboration with the supplier and stored in the design data administration system (KVS – German abbreviation). For the refractive power and rate of change, the limits in table 2 apply. Agreements regarding the measurement procedure are also stated in the setup instructions and stored in KVS (see component number).Table 2 – Permissible refractive powerField of view D absolute inmdptROC in mdpt RequirementA≤ 75≤ 100Definition of field of view according to ECE-R43B≤ 100≤ 125Definition of field of view according to drawingC≤ 125≤ 125Definition of field of view according to drawingFocal line≤ 125≤ 150Focal lines at the bottom ceramic edge are measuredusing filter setting 4/5/0, SAB 6 at γ = 60°± 2°, ceramicedge detection must be ensuredD≤ 150≤ 175Definition of field of view according to drawingIf optical lenses with different algebraic signs are located at the edge of a field of view, then the "rate of change" limit of the more sensitive area applies. This also applies to the evaluation of the optical focal lines.The evaluation of the optical focal line at the bottom ceramic edge must be conducted in addition to the evaluation of the fields of view. In principle, however, optical focal lines must be measured in。

防爆液化气柜试用反馈记录范文1.产品外观精美，符合我们的审美需求。

The product has a beautiful appearance, which meets our aesthetic needs.2.柜体结实耐用，材质优质。

The cabinet is sturdy and durable, with high-quality materials.3.安装简便，操作方便。

Easy to install and operate.4.安全性能稳定，符合要求。

Stable safety performance, in line with requirements.5.使用效果良好，满足需求。

Good performance in use, meeting our needs.6.整体设计合理，使用便利。

Reasonable overall design, convenient to use.7.样式新颖，与现代家居风格相配。

Innovative style, matching modern home decor.8.容量适中，能够满足我们的用气需求。

The capacity is moderate, able to meet our gas needs.9.锁具可靠，保障安全。

Reliable locks, ensuring safety.10.防爆性能好，给人安全感。

Good explosion-proof performance, giving a sense of security.11.产品的质量可靠，让人放心。

The product's quality is reliable, giving peace of mind.12.价格合理，性价比高。

Reasonable price, high cost performance.13.包装完好，无损坏。

Well-packaged, without any damage.14.防爆性能达标，符合相关标准。

V 2640 F l a t P a c k 2V2640 Flat PackPrint, Label and Seal Inspection SystemThe Mettler-Toledo V2640 offers a complete inspection of essential prints, labels and seals of packaged fresh foods ensuring the right packaging is delivered every time. The V2640 immediatly detects nonconforming products cre-ated by production line machine and material fabrication failures, substantially increasing production line uptime.Handling small, medium and large article sizes,designed to meet HACCP hygienic standards and with an industry leading easy-to-use human-machine interface, a V2640 model operates effectively in almost all fresh food packaging production lines.You benefit from a V2640 packing inspections system by:• Immediate detection of production line errors, increasing uptime and cutting repackaging costs.• Ensuring proper packaging on retailers’ shelves, eliminating fines, maximizing product sales, and cultivating consumer satisfaction.Critical InspectionsInspections are focused on the vital prints, label and sealing features demanded by consumers, retailers and regulators. Your product always looks right and complies with laws and certification standards.For more information/ci-visionMettler-Toledo CI-Vision 2640-A White Oak Circle Aurora, IL 60502Tel: (630) 446-7700Fax: (630) 446-7710E-mail:*********************Specifications subject to technical changes.© 2012 METTLER TOLEDO CI-Vision Printed in U.S.A.Version 2.0Quality Packaged Food Inspection For Retailer SatisfactionInspection Capabilities:• Print Verification: inspects alpha-numeric text forreadability ensuring accuracy of critical information on label, film and package• 1D/2D Barcode Identification: verifies barcodes are present and properly coded, promoting a fast and reliable retail purchase• Label and Film Verification: accurate inspection of the label and film for presence, position and correctness, preventing nonconforming products from entering the marketplace• Seal Contaminant: detects contaminants in the seal Ensures a quality look on the retailers’ shelves For Both Top and Bottom Inspections*:• Up to 250 ppm depending on article length • Conveying speeds up to 70 m/min**• Best before date, production date, lot number and customer specified character string readability and verification character height > 1,5 mm (x-height)**• 1-D and 2D bar code readability and verification • Label type, position, and fold detectionAdditional for Top Inspections*:• Film type and position detection (shift ≥ 3mm, > 3o skew)• Seal contaminant detection (contaminant is > 3 mm 2 )Package Specifications:• Maximum length and width: see table • Minimum length and width 80 x 50 mm • Heights from 5 to 250 mm • Surface deviation ≤ 20 mm• Spacing ≥ 25 mm between packagesOptional Equipment:• Color option to control label/film number and color graphics • Rejecters and catch bins• Handheld barcode readers for quick product changeover • Integration with Mettler-Toledo checkweighers, X-ray and metal detectorsEquipment Specifications• Line height from 750 to 1050 mm**• Power requirements: 115 or 230 VAC; 60 or 50 Hz, respectively single phase• Operating temperature from 0 to 40o C • Ingress protection IP54*** Product packaging, labels and prints can be inconsistent and not applicable for all inspections. Products must be submitted to MT for an evaluation to determine which inspections are appropriate.** Different specifications can be realized through a well-defined “project”. Contact your Mettler-Toledo representative for details.V2640 Flat Pack 300CLS 200CLS 300CLS 400Maximum Package Size Length and width (mm)200300400CLS External Dimensions Width (mm)100510051005Length (mm)112311231323Length (mm) with optional rejecter166416641994。

办公工具试用评估报告随着科技的不断发展，办公工具在我们日常工作中扮演着至关重要的角色。

为了提高办公效率，我们经常需要依赖各种办公工具来完成工作。

因此，对办公工具进行试用评估显得尤为重要。

本篇文章将对办公工具进行试用评估，并提供一些关于它们的使用体验和建议。

一、文档处理软件文档处理软件是我们日常工作中最常用的工具之一。

在试用过程中，我们选择了三款主流的文档处理软件进行对比评估：微软Office、谷歌文档和WPS Office。

微软Office是最为熟知和广泛使用的文档处理软件，它的功能强大且稳定。

但是，它的价格较高，对于个人用户来说可能有些昂贵。

谷歌文档是一款基于云端的文档处理软件，它的协作功能非常出色，多人可以同时编辑同一份文档。

然而，由于需要互联网连接，离线使用时存在一定的局限性。

WPS Office是一款国内知名的文档处理软件，它的界面简洁易用，与微软Office的兼容性较好。

但是，由于其翻译功能的不完善，对于需要进行多语言处理的用户来说可能不太适用。

根据个人需求和预算考虑，选择适合自己的文档处理软件。

二、项目管理工具在工作中，项目管理工具可以帮助我们更好地组织和管理项目。

我们试用了Trello和Microsoft Planner这两款项目管理工具。

Trello是一款简单易用的项目管理工具，它的界面直观，操作便捷。

但是，对于复杂的项目管理需求来说，Trello的功能可能有些简单。

Microsoft Planner是微软推出的项目管理工具，它与Office 365集成，可以方便地与其他办公工具进行协作。

但是，由于其界面稍显复杂，使用起来可能需要一些时间的适应。

根据项目的复杂程度和团队的需求来选择适合的项目管理工具。

三、会议工具随着远程办公的普及，会议工具对于团队协作变得尤为重要。

我们试用了Zoom和Microsoft Teams这两款会议工具。

Zoom是一款功能强大的会议工具，它的视频质量稳定，支持大规模会议。

随身管家说明手册版本V1.11. 引言 (4)1.1目的 (4)1.2术语和定义 (4)1.3参考资料 (4)2. 产品概述 (4)2.1市场环境分析 (4)2.2产品概述 (5)3. 潜在用户及应用场景分析 (6)3.1用户特点 (6)3.2应用场景 (7)4. 权限 (7)5. 注册 (7)6. 登录 (8)7. 首页 (9)7.1个人中心 (10)7.1.1 切换会员 (10)7.1.2 基本设置 (10)7.1.3 退出 (10)7.2消息中心 (10)7.2.1 管家头条 (10)7.2.2 审批中心 (11)7.3经营看板 (12)7.4快捷栏 (12)7.5底部频道 (13)8. 销售 (14)8.1创建订单 (14)8.2订单审核 (15)8.3财务确认 (16)8.4现款销售 (16)8.5订单查询 (17)8.6退换查询 (19)9. 库存 (20)9.1库存查询 (20)9.2入库单查询 (21)9.3出库单查询 (22)9.4调拨单查询 (23)10. 采购 (23)10.1创建采购单 (24)10.2采购审核 (24)10.3采购查询 (26)10.4供应商查询 (27)11. 报表 (28)11.1经营看板 (28)11.2销售日报表 (29)11.3销售月报表 (30)11.4货品销售排行 (31)11.5店铺情况分析 (32)11.6门店营业统计 (33)11.7采购汇总表 (34)11.8经营利润表 (35)11.9资产负债表 (36)12. 产品非功能性需求 (37)1.引言1.1目的（1）简述随身管家项目的背景及设计思路；（2）细述产品功能进行描述，以供开发及测试人员参考；1.2术语和定义无1.3参考资料无2.产品概述2.1市场环境分析随着移动互联网的快速发展，移动办公已经成为人们日常工作的重要方式，尤其对于采购人员、管理人员等经常需要外出工作的岗位，在处理紧急事务，急于获取重要数据信息时，通常会发生身边没有或不便于使用PC的情况，此时，利用手机进行简单的事务操作或查询数据信息便成为了相当高频的场景。

澎博终端使用说明（简化版）一、启动澎博终端公共电脑-开始-BLOOMBERG-打开-等待联接-回车-输入用户名和密码-回车。

二、有关参数选取1、市场报酬率、无风险利率和风险溢价（1）“首页目录”-股票-TOP-DOWN分析-国家风险溢价，如下图：（2）选择国家。

可在列表中选择，也可以在上图红色框内选择，然后在列表中双击所要选择的国家，进入以下界面，并设置相应参数：时间范围，daily/weekly/monthly/yearly，数据下拉框中的平均值/最大最小值等，数据更新即可“输出至excel”。

注意：在这里的无风险利率是是年末时点利率，计算时需要在“日期范围”调出一整年的数据，再点击上方计算平均值，结果为年化平均无风险利率。

2、Beta值，上市公司财务数据、财务指标等（1）在澎博终端左上角区域直接输“EQS"，回车后界面如下：（2）在添加条件框里输入添加的条件，如“马来西亚”回车，“银行”回车，等，并点击右下角的“结果”，便会得到马来西亚银行业上市公司列表。

（3）在“添加列”中添加想要查找的字段即可，并设置期限等。

如“beta 值，资产总额，总资产报酬率等”。

3、IPO发行价（1）澎博终端左上角输入IPO-回车-高级搜索，依据选择要设置的字段，如下图：（2）点击上图结果并得到检索结果，点击交易列表-选项-输出。

4、个股历史收盘价（1）在左上角输入“企业代码”（如：APPL）-空格-按“F8”-空格-“HP”，回车，如下图：（2）选择时间范围，回车，列表中即为历史每天的收盘价格；（3）“选项”-“输出”可以导出到EXCEL，再计算平均收盘价等。

5、并购交易案例（1）在左上角输入“MA”-回车-高级搜索，如下图：（2）筛选国家、行业、时间范围、私有/上市（如选择标的私有，可以不考虑流通性折扣），回车；（3）点击“交易列表”，添加“列”，常用可添加的：PE，PB，PS，EBIT，EBITDA，EV(enterprise value)，TV(total value)，总资产，营业收入，净利润等；（4）“选项”-“输出”可以导出到EXCEL。