沥青混凝土配合比级配调试软件

Excel函数在沥青混合料配合比数据处理中的应用李继孝李亚利中铁航空港集团第一工程有限公司陕西渭南714000摘要:依据excel中内置的函数和绘图功能等，进行沥青混凝土配合比设计。

根据求解图形显示的结果，调整合成颗粒级配，使之更加合理。

关键词：函数绘图配合比颗粒级配中图分类号： TU57+1 文献标识码： A1、概述：随着计算机办公软件的普及应用，如微软的Excel等中，作为工程试验检测人员，软件中的函数功能和绘图功能已有所应用和研究。

使用计算机中的自动计算和自动绘图功能，可以方便和快速直观的表现出沥青配合比设计中的合成颗粒级配及级配示意图、直观的反映出计算所得。

依据工程实际的材料单级配合成工程所需的合成级配及示意图进行了深入的研究。

2、实例分析：本文采用工程实际筛分数据。

⑴准备工作：首先确保所使用的Excel加载有规划求解宏.如软件未自带,可下载求解器solver,解压后放置于Program Files\Microsoft Office\OFFICE11\Library目录下。

⑵数据求解新建excel表格。

⑴在表格中输入实际筛分结果和规范要求的上限和下限，如下图.①在级配中值表格中依次输入公式：B15=AVERAGE(B13:B14)C16=AVERAGE(C13:C14)………N16=AVERAGE(N13:N14)②在合成级配表格中依次输入公式：B16=SUMPRODUCT($P$4:$P$12,B$4:B$12)/100C16=SUMPRODUCT($P$4:$P$12,C$4:C$12)/100………N16=SUMPRODUCT($P$4:$P$12,N$4:N$12)/100③在求解P15中输入公式P15=SUM(P4:P12)④设置目标单元格，如下图设置目标单元格$Q$16,设置可变$P$4: $P$12,约束条件$B$16:$N$16≦$B$13:$N$13、$B$16:$N$16≧$B$14:$N$14、$P$4:$P$12≧0、$Q$15=100⑤求解，保存求解结果。

浅谈沥青混凝土生产配合比的验证及调试技术发布时间：2021-04-13T10:20:21.760Z 来源：《基层建设》2020年第29期作者：娄山[导读] 摘要：沥青混合料的拌和直接关系到沥青混凝土的质量，成品料能否满足目标配合比设计要求是确保沥青混凝土路面施工质量的必要条件。

天津城建集团检测科技有限公司 300250摘要：沥青混合料的拌和直接关系到沥青混凝土的质量，成品料能否满足目标配合比设计要求是确保沥青混凝土路面施工质量的必要条件。

因此掌握和提高沥青混凝土拌合楼生产配合比的调试技术尤为重要。

关键词：沥青混凝土、生产配合比、试验、调试影响沥青混凝土面层使用性能的重要因素是沥青混凝土配合比，它直接影响路面的质量,关系到路面的使用寿命,同时还关系到行车舒适性和安全性。

下面从沥青混凝土工作原理以及沥青混合料拌和中的常见问题等方面，阐述沥青混凝土拌合楼生产配合比的调试技术，提出相应的预防措施。

一、生产配比与目标配比不一致的因素生产配合比与目标配合比应一致，但设计中由于原材料的限制，合成级配中可能出现几个筛孔通过率不在中值或级配曲线不平顺的情况，而在生产配比中，由于有5个热料仓分割成更多的规格料，因此很容易将更多的筛孔通过率设计在中值，并使级配曲线平顺。

这样工程技术人员经常将生产配合比与目标配合比分开进行设计，从而导致两者的合成级配不一致，违反了供需平衡原理，造成溢料等料现象。

二、沥青混凝土生产配合比试验验证生产配合比设计完成进入生产配合比的验证阶段，在该阶段拌和机采用生产配合比进行试拌、铺筑试验段，并用拌和的沥青混合料及路上钻孔的芯样进行马歇尔试验检验，由此确定生产用的标准配合比。

标准配合比应作为生产控制的依据和质量检验的标准，一旦确定就不应该随便更改，只有当材料发生变化时才进行必要的调整。

当所有指标经检验均合格后即可正式施工，如果有指标不合格应分析原因，进行适当调整后再进行验证。

所以该阶段马歇尔试验的准确性与否至关重要。

【关键字】配合用Excel计算沥青混凝土配合比的方法实例王鹏河北建设集团路桥分公司保定市071051摘要：随着计算机与计算机技术的大规模普及，计算机已经成为常见的办公常备工具，本文主要阐述Excel在沥青混凝土配合比计算中的应用，解决试验工作中繁琐的重复计算，化繁为简，使工作效率更上一层楼。

关键词：Excel 函数配合比试验实例随着计算机以及计算机技术的日益普及，在生活和工作当中的发挥的作用越来越重要，因为在各个领域的运用功能不一，所以用到的应用程序也不一致，不过在90％以上的windows系统中，Office办公套件是必备的软件，其中的Excel是电子表格市场的领导者。

这不仅仅是因为微软公司在市场上的巨大影响，而且还因为Excel的确是现在可以用到的最好的电子表格程序。

Excel最具特色之处就是它的公式功能，在公式方面，Excel的确有它的独到之处，可以很保守的说我们常用到的Excel的函数和公式功能仅仅占所有的10％还不到，就笔者在日常试验工作中的函数应用对Excel作一个简单的介绍。

1、Excel介绍1.1Excel基础知识微软的Excel一直被认为是“为windows编写的最好的应用程序”，多少年来，他经历了多次修改，功能越来越强大。

在没有电子表格的时代，人们只能依靠十分巨大的计算机主机或者使用计算器，花费数小时来做的事情现在使用Excel需要几分钟就可以完成工作。

1.2Execl常用名词工作薄：Excel最常用的对象之一就是工作薄，在Excel中做的任何工作都放在工作薄中，它使用.xls作为扩展名保存。

工作表：最常用的表就是工作表，它总数有256列65536行，行和列的数量是固定的，可以隐藏不需要的行和列，但总数的行和列是不能增加的。

函数：函数就是指在公式中可以使用的一种内部工具，它有如下的功能：（1）、可以简化公式（2）、保证公式运行，否则无法进行计算（3）、提高编辑任务的速度（4）、允许“有条件的”运行公式，使之具备基本判断能力公式：当一个空单元格中键入一个等号的时候，Excel就认为你在输入一个公式，输入单元格中的公式共有5中元素：运算符：包括一些符号，例如“+”“-”“×”“÷”等单元格应用：它们包括命名单元格和范围，甚至可以是其他工作薄工作表的单元格值或字符串工作表函数和它们的参数括号：它们控制公式中各个表达式的处理次序。

沥青混合料配合比数据处理系统1.沥青混合料配合比选择简介沥青混合料配合比的设计主要是利用马歇尔的试验方法确定沥青混合料的材料品种及配合比、矿料级配、最佳沥青用量。

其工艺流程图如下：沥青混合料配合比设计操作框图矿料级配的计算、马歇尔试验以后的步骤。

矿料级配计算主要采用规划求解方法进行。

通过马歇尔试验得出一组数据，然后对数据进行处理，最终得出最佳油石比。

2.人工数据处理过程2.1矿料级配的计算：列15个方程，求解4个未知数，有不同的结果。

沥青混合料级配设计计算表2.2本数据处理系统是对马歇尔试验的数据用计算机进行处理，改变以往人工处理效率低，准确性差的特点。

马歇尔试验得出数据汇总如下：然后将每种试验项目作纵坐标,油石比作横坐标绘制如下表:1）根据上述的五个曲线图求取相应密度最大值时沥青用量a2、稳定度最大值时沥青用量a1、空隙率范围中值沥青用量a3，求取三者平均值作为最佳沥青用量的初始值OAC1：OAC1=（a1+a2+a3）/32）求出各项指标符合技术要求的沥青用量范围OAC MIN —OAC max ,其中 OAC2=（ OAC MIN +OAC max ,）/2 3）最佳沥青用量为：OAC=（ OAC1+OAC2）/23．计算机数据处理过程3.1试验参数的输入3.2马歇尔数据处理3.3级配设计4.使用说明本软件采用VC6.0编写，可在windows环境下运行。

软件采用基于文档的方式来实现，通过处理输入的数据，在文档区显示数据处理的结果，同时可以通过本地或者网络打印机打印显示的文档。

按数据处理功能来说分为两部分，一部分是沥青混合料最佳用量确定试验，一部分是沥青混合料集料级配设计试验。

1、沥青混合料最佳用量确定试验使用说明1)打开程序；2)点击菜单——〉参数输入——〉试验参数，出现参数输入的对话框；3)在对话框里分别填写实验信息，选择道路类型、混凝土类型。

然后点击“确定”按钮；4)此时菜单——〉参数输入——〉Mashall参数激活，点击菜单——〉参数输入——〉Mashall参数，出现Mashall参数的对话框；5)选择试验数据组数（5~8），缺省值为5；然后填入实验数据，如果填错，则会报错。

ogfc沥青混凝土配合比可以是多种不同的组合，具体配比需要依据实际情况而定。

以下是一种可能的配比方案，供您参考：材料：* 水泥：普通硅酸盐水泥，强度等级不低于42.5，体积密度约为3.15克/立方厘米。

* 碎石：采用连续级配，粒径范围在5~30毫米之间，压碎值指标低于16%。

* 沥青：采用SBS改性沥青，针入度指数在6~8之间，软化点不小于85℃。

* 矿粉：干燥、洁净，不含有泥土或其他杂质。

配合比：1. 目标配合比设计：通过称量各种材料，确定各种材料在矿料中的质量比例。

水泥：碎石：矿粉=45:55，其中碎石分为粗、中、细三个级别的粒组，通过不同的比例进行混合。

2. 生产配合比设计：将原材料进场后，进行二次筛分试验和试拌调整，以确定最佳的筛分比例和生产配比。

在试验过程中，需要调整各个料仓的进料比例，同时还要调整各部分设备的生产率，以达到最佳的生产配合比。

一般情况下，油石比为5.5%，最佳油石比的确定还需要根据实际施工情况进行调整。

注意事项：1. 在配合比设计中要注意材料的质地和精度，优质的材料是保证配比质量的前提。

2. 各种材料的称量要准确，误差控制在一定范围内。

水泥和粗细骨料的称量允许误差为±2%，沥青的允许误差为±1%。

3. 生产过程中的各个阶段都要做好记录，发现问题及时解决。

4. 在生产配合比的调整过程中，要注重试验数据的分析和总结，不断优化配比方案。

具体到每一种材料的用量，需要依据实际情况而定，一般情况下，可以参考以下配比方案：1. 水泥：一般情况下，水泥的用量在400~500千克/立方左右。

可以根据实际情况进行调整，以获得最佳的强度和稳定性。

2. 碎石：根据不同的粒径范围，碎石的用量在50%~60%左右。

在选择碎石时，要注意质地和精度，以保证配比质量。

3. 矿粉：矿粉的用量一般较低，大约在10%~15%左右。

要保证干燥、洁净，不含有泥土或其他杂质。

4. 沥青：根据不同的性能要求，沥青的用量在4%~6%左右。

Superpave沥青混合料的配合比设计与应用于2000年，我国的京珠高速公路湖北段首次引进了Superpave试验路，同年，在江苏省内的淮江公路淮阴连接线也进行了7km的Superpave沥青路面的施工。

之后的连徐、宁宿徐和宁靖盐等高速公路也进行了Superpave上、中、下面层的试验路。

Superpave技术在江苏省内的应用逐步得以推广。

2004年通启高速公路共线段沥青中、下面层设计分别采用了Superpave20和Superpave25的结构。

虽然该路段为六车道，路幅较宽，但两台摊铺机摊铺后的混合料表面均匀，基本无离析，且基本不渗水。

至2008年在如东S334沥青路面中我又再遇Superpave 沥青砼，现结合多条道路施工经验，浅析Superpave沥青混合料的设计与应用。

一、Superpave设计原理我们在进行沥青混合料配合比设计时，通常做法是千方百计调整级配尽可能符合规范规定的中值，特别强调“应使包括0.075mm、2.36mm和4.75mm的筛孔在内的较多的通过量接近设计级配范围的中值”。

在0.45次级配图上，我们可以发现大多数级配中值点接近最大密度线。

也就是说，使沥青混合料能最大限度的密实是沥青混合料设计的原理。

而Superpave设计则认为随着交通量的增长，轴载的增加，我们需要更多的粗集料形成骨架，有足够的矿料间隙率和足够的沥青保持耐久性，并具有一定的空隙率使沥青能够自由迁移，这就是Superpave的设计概念。

二、级配确定根据Superpave设计原理，Superpave的集料级配控制就完全不同于我国沥青路面技术规范的级配范围，主要采用控制点和限制区来初选级配，总体要求就是尽可能使较大的粗集料通过量多一些，而较小的粗集料通过量少一些，同时要求细集料一端不能通过规定的限制区，一般曲线均走限制区的下方，也就是限制混合料中细集料的含量。

下面我就将普通AC-25Ⅰ、AC-20Ⅰ型沥青混合料与Sup25和Sup20级配绘图进行对比。

Excel在沥青配比中的运用谢仕良中国路桥集团第一公路工程局天津工程处摘要本文具体介绍了Excel在沥青配比中的运用的操作过程，图表生成程序及与手工计算的比较，对一些Excel的简单操作也作了初步的介绍。

关键词Excel 沥青配比拟合函数样本相关系数统计图1. 前言随着科技的日新月异，IT行业从二十世纪中叶就凭着自己的新颖和强大的势头逐渐地渗透到社会的各个行业。

它不仅从一定程度上帮助着人类处理了繁琐复杂的日常工作，还逐步地在改变人类的生活方式和思维模式，所以电脑的出现必将带给人类又一次理论上的飞跃。

但是电脑毕竟只是工具，人类在传播工具的途径上或有效性上都显得比较迟钝或愚蠢，所以到今天为止，电脑在施工行业里还处在比较幼稚的阶段，大部分施工技术员仅仅用它来作作文档，画画表格或玩玩游戏而已，对于更深一层的数据处理、统计分析就少人问津。

其实，在Office的家族里，Word强大的文字处理，Excel方便的图表绘制，一直倍受人们的推崇和乐道。

作者也根据自己的实践，探求在施工行业普及Excel，提高和开发Excel的功能，也想借此机会来影响更多的施工技术人员喜欢Excel，运用Excel，为Excel在工程界尤其是施工界的推广作点力所能及的事。

本文结合在沥青配比中的计算，想尽最大的努力将Excel更炫、更酷的功能阐述得简单、明了，便于大家接受。

作者的理念是：追求最简易的方法，解决最复杂的问题。

2. Excel简介Excel是美国微软公司开发的Office系列办公软件里的，在Windows环境下运行的电子表格系统，目前已占领同类软件的市场份额的90%，可见它的使用范围之广。

2001年发行出版的Excel2000，是Office XP的一部分，它的功能集几代Excel之大成，在使用性能上已臻化境，同时其还另增一功能：Excel出现问题以后，系统可以恢复Excel工作。

纵观所有的Excel软件，它具体表现出以下几个优点：（1）便利的数据输入、编辑、整理功能；（2）图表绘制集于一身；（3）数据统计分析处理功能；（4）通过一些简便的公式编辑可以省略许多复杂的电脑专业上的编程；（5）即改即现。

ogfc沥青混凝土配合比摘要：一、OGFC 沥青混凝土概述1.OGFC 沥青混凝土定义2.OGFC 沥青混凝土特点二、OGFC 沥青混凝土配合比设计1.原材料选择2.配合比设计原则3.配合比设计方法三、OGFC 沥青混凝土生产工艺1.混合料制备2.沥青混凝土拌合3.沥青混凝土摊铺四、OGFC 沥青混凝土的应用领域1.高速公路与城市快速路2.机场跑道3.桥梁路面正文：OGFC 沥青混凝土，即Open-graded Friction Course（开级配磨耗层）沥青混凝土，是一种具有优良抗滑性能、抗水损害性能和耐久性能的沥青混凝土路面材料。

OGFC 沥青混凝土广泛应用于高速公路、城市快速路、机场跑道和桥梁路面等场所。

为了确保OGFC 沥青混凝土的性能，需要对其配合比进行科学合理的设计。

在设计过程中，应根据道路等级、交通量、气候条件等因素，选择适当的原材料。

同时，要遵循经济性、环保性和耐久性等原则，确定最佳的配合比。

在OGFC 沥青混凝土的生产工艺中，混合料的制备是关键环节。

制备过程中需要对原材料进行合理搭配，以确保混合料的级配分布和矿料间隙率满足设计要求。

沥青混凝土拌合时，应控制拌合温度、拌合时间和拌合比例，以保证混合料的性能。

摊铺过程中，应根据工程实际情况，调整摊铺速度、摊铺厚度和碾压温度等参数，确保OGFC 沥青混凝土的质量和性能。

OGFC 沥青混凝土的应用领域十分广泛。

在高速公路和城市快速路等高等级道路中，OGFC 沥青混凝土可作为磨耗层，提高路面的抗滑性能和耐久性能。

在机场跑道中，OGFC 沥青混凝土具有良好的抗水损害性能，能够保证飞机在雨天等恶劣天气条件下的起降安全。

在桥梁路面中，OGFC 沥青混凝土可作为防水层和磨耗层，提高桥梁的使用寿命和行车安全。

配合比及自动绘制级配曲线的方法【摘要】介绍了用Excel电子表格的规划求解功能和图表功能，自动调整水泥混凝土、水泥稳定粒料及沥青混凝土的配合比及自动绘制级配曲线的方法。

关键词 Excel 自动调级配传统调级配都是用手工方法，速度慢，计算量大且容易出错，当级配料有三种以上便很困难。

本文介绍用电子表格自动调整级配，速度快(程序做好后，每次调级配只需几秒钟便完成，一劳永逸)、结果准确、方法简单——只需输入每种矿料在每个筛孔上的筛余量即可。

下面以一个四种矿料组成的例子来加以说明。

第一步启动Excel，检查工作表菜单栏中的“工具(T)”栏的子菜单中有无“规划求解(v)(或S0iver)”项，如果没有可通过加载宏的方法将其载入。

第二步双击“sheet1”将“sheet1”改为“沥青级配表”，同样将“sheet2 ”“sheet3”“sheet4”“sheet5”分别改为“中石”“瓜子片”“米石”“石粉”，在表“中石”中建立一个如图1的工作表。

然后在单元格“G1”中输入“=Today()”函数并将单元格的格式定义为日期中的“××××年××月××日”格式，并按下表内容在各个单元中分别输入公式。

输入中石筛分结果，得到如图2的工作表(其他筛分结果见附表)。

将文件保存，并将工作表“中石”复制并粘贴到空的“瓜子片”、“米石”和“石粉”工作表中，并将三个工作表中A1单元格的内容“中石筛分表”分别改为“瓜子片筛分表”、“米石筛分表”、“石粉筛分表”。

输入瓜子片、米石、石粉的筛分结果，保存文件。

现在点击“沥青级配表”回到“沥青级配表”中建立一个如图3的工作表，其中“标准下限”和“标准上限”列输入的数据为规范要求的范围值，可通过查设计规范得到。

“权值”列中的数据可根据需要输入相同或不同的权值。

在工作表“沥青级配表”单元格H1中输入“=Today()”函数并将单元格的格式定义为日期中的“×××年××月××日”格式,在单元格C4中输入公式“=中石!G3”，把光标在单元格B4的右下角,当光标成黑十字时,按住左键拖动复制,直到单元格B17,在单元格C4中输入公式“=小石!G3”, 在单元格D4中输入公式“=米石!G3”, 在单元格E4中输入公式“=中石!G3”, 把光标在单元格C4、D4、E4的右下角,当光标成黑十字时,按住左键拖动复制,直到单元格C17、D17、E17。

的对应关系，根据在一定条件下的Superpave交通水准及路面设计交通荷载情况，确定级配的合理性及沥青混合料最佳用油量。

1 单质材料要求1.1集料要求集料应采用坚硬、洁净、干燥、无风化、无杂质的安山岩并要求使用反击和锤式破碎机经三级破碎加工而成，并特别强调集料的破碎面含量(三个破碎面含量至少为90%)和一定的粗糙度。

矿粉采用石灰石研磨而成。

主要检测结果见表1。

1.2 改性沥青由于长余高速公路所处地理位置属于东北寒冷地区及根据SMA结构特点，长余高速公路采用热塑橡胶SBS型改性沥青并满足美国SHRP规范PG64-34等级要求。

改性沥青检测指标及结果见表2。

2 SMA沥青混合料试验检测2.1级配选择通过将个别材料的级配数学组合为单一级配混合料的方式来确定设计集料结构，然后将混合料级配同长余高速公路规范进行比较。

级配设计根据4个控制筛孔和限制区要求，按照Supe rpave规定合成级配尽量避开限制区，表3为试验用4种合成试验级配和长余高速公路SMA-16级配规范要求，合成级配见图1。

3 SMA-16面层级配Superpave旋转压实评价3.1旋转压实参数的确定根据美国沥青协会(AASHTOPP28-00)试验规程，SMA沥青混合料旋转压实参数与单轴荷载(ESALs)能力的对应关系见表4。

长余高速公路设计交通期望值在10×106和30×106单轴载之间，因而旋转压实参数采用N初试=8、N 设计=100、N最大=160。

沥青混合料短期老化条件为135℃烘箱中烘2h，然后在135℃条件下进行沥青混合料试件的旋转压实。

3.2粗集料的间隙率VCA DRCVCA DRC是根据4.75mm以上粗集料毛体积相对密度r ca及用捣实法测定4.75mm以上粗集料的松方毛体积相对密度r s计算得到。

4种试验级配VCA DRC计算结果见表5。

3.3试件制备用Superpave旋转压实仪，对每种试验级配混合料至少压实2个试件。

form1:Private Sub Command1_Click() Form2.ShowEnd SubPrivate Sub Command3_Click() Unload MeEnd Subform2:Public I, J As IntegerPublic K As StringPrivate Sub Command1_Click() I = Text1If I > 2 And I < 8 ThenIf J > 6 ThenForm4.ShowEnd IfEnd IfEnd SubPrivate Sub Command2_Click() Unload MeEnd SubPrivate Sub Command3_Click() I = Text1Form5.ShowEnd SubPrivate Sub Form_Load()I = 0J = 0Text1 = ""End SubPrivate Sub Option1_Click()J = 13K = "AC-30I"Text1.SetFocusEnd SubPrivate Sub Option2_Click()J = 13K = "AC-30II"Text1.SetFocusEnd SubPrivate Sub Option3_Click() J = 12K = "AC-25I"Text1.SetFocusEnd SubPrivate Sub Option4_Click() J = 12K = "AC-25II"Text1.SetFocusEnd SubPrivate Sub Option5_Click() J = 11K = "AC-20I"Text1.SetFocusEnd SubPrivate Sub Option6_Click() J = 11K = "AC-20II"Text1.SetFocusEnd SubPrivate Sub Option7_Click() J = 10K = "AC-16I"Text1.SetFocusEnd SubPrivate Sub Option8_Click() J = 10K = "AC-16II"Text1.SetFocusEnd SubPrivate Sub Option9_Click() J = 9K = "AC-13I"Text1.SetFocusPrivate Sub Option10_Click() J = 9K = "AC-13II"Text1.SetFocusEnd SubPrivate Sub Option11_Click() J = 8K = "AC-10I"Text1.SetFocusEnd SubPrivate Sub Option12_Click() J = 8K = "AC-10II"Text1.SetFocusEnd SubPrivate Sub Option13_Click() J = 7K = "AC-5I"Text1.SetFocusEnd SubPrivate Sub Option14_Click() J = 10K = "AK-16"Text1.SetFocusEnd SubPrivate Sub Option15_Click() J = 9K = "AK-13A"Text1.SetFocusEnd SubPrivate Sub Option16_Click() J = 9K = "AK-13B"Text1.SetFocusEnd SubPrivate Sub Command1_Click()Dim jg00, jg11, jg22, jg33, jg44, jg55, jg66, jg77, jg88, jg99, jg100, jg110, jg120 As IntegerDim II, JJ As IntegerDim KK As StringDim Shangxian() As SingleDim Xiaxian() As SingleDim Zhongzhi() As SingleDim jgg() As SingleII = Form2.IJJ = Form2.JKK = Form2.KText1 = KKIf KK = "AC-30I" Then '上下限与中值ReDim Shangxian(12) As SingleReDim Xiaxian(12) As SingleReDim Zhongzhi(12) As SingleShangxian(0) = 7: Shangxian(1) = 13: Shangxian(2) = 18: Shangxian(3) = 25: Shangxian(4) = 32: Shangxian(5) = 42Shangxian(6) = 52: Shangxian(7) = 63: Shangxian(8) = 72: Shangxian(9) = 77: Shangxian(10) = 82: Shangxian(11) = 92Shangxian(12) = 100Xiaxian(0) = 3: Xiaxian(1) = 5: Xiaxian(2) = 8: Xiaxian(3) = 13: Xiaxian(4) = 18: Xiaxian(5) = 25: Xiaxian(6) = 32Xiaxian(7) = 43: Xiaxian(8) = 52: Xiaxian(9) = 59: Xiaxian(10) = 66: Xiaxian(11) = 79: Xiaxian(12) = 90Zhongzhi(0) = 5: Zhongzhi(1) = 9: Zhongzhi(2) = 13: Zhongzhi(3) = 19: Zhongzhi(4) = 25: Zhongzhi(5) = 33.5Zhongzhi(6) = 42: Zhongzhi(7) = 53: Zhongzhi(8) = 62: Zhongzhi(9) = 68: Zhongzhi(10) = 74: Zhongzhi(11) = 85.5Zhongzhi(12) = 95End IfIf KK = "AC-30II" ThenReDim Shangxian(12) As SingleReDim Xiaxian(12) As SingleReDim Zhongzhi(12) As SingleShangxian(0) = 5: Shangxian(1) = 7: Shangxian(2) = 11: Shangxian(3) = 14: Shangxian(4) = 20: Shangxian(5) = 28Shangxian(6) = 38: Shangxian(7) = 50: Shangxian(8) = 58: Shangxian(9) = 65: Shangxian(10) =70: Shangxian(11) = 85Shangxian(12) = 100Xiaxian(0) = 1: Xiaxian(1) = 2: Xiaxian(2) = 3: Xiaxian(3) = 4: Xiaxian(4) = 8: Xiaxian(5) = 12: Xiaxian(6) = 18Xiaxian(7) = 30: Xiaxian(8) = 38: Xiaxian(9) = 45: Xiaxian(10) = 52: Xiaxian(11) = 65: Xiaxian(12) = 90Zhongzhi(0) = 3: Zhongzhi(1) = 4.5: Zhongzhi(2) = 7: Zhongzhi(3) = 9: Zhongzhi(4) = 12: Zhongzhi(5) = 20Zhongzhi(6) = 28: Zhongzhi(7) = 40: Zhongzhi(8) = 48: Zhongzhi(9) = 55: Zhongzhi(10) = 61: Zhongzhi(11) = 75Zhongzhi(12) = 95End IfIf KK = "AC-25I" ThenReDim Shangxian(11) As SingleReDim Xiaxian(11) As SingleReDim Zhongzhi(11) As SingleShangxian(0) = 7: Shangxian(1) = 13: Shangxian(2) = 18: Shangxian(3) = 25: Shangxian(4) = 32: Shangxian(5) = 42Shangxian(6) = 52: Shangxian(7) = 63: Shangxian(8) = 73: Shangxian(9) = 80: Shangxian(10) = 90: Shangxian(11) = 100Xiaxian(0) = 3: Xiaxian(1) = 5: Xiaxian(2) = 8: Xiaxian(3) = 13: Xiaxian(4) = 18: Xiaxian(5) = 25 Xiaxian(6) = 32: Xiaxian(7) = 43: Xiaxian(8) = 53: Xiaxian(9) = 62: Xiaxian(10) = 75: Xiaxian(11) = 95Zhongzhi(0) = 5: Zhongzhi(1) = 8.5: Zhongzhi(2) = 13: Zhongzhi(3) = 19: Zhongzhi(4) = 25: Zhongzhi(5) = 33.5Zhongzhi(6) = 42: Zhongzhi(7) = 53: Zhongzhi(8) = 63: Zhongzhi(9) = 71: Zhongzhi(10) = 82.5: Zhongzhi(11) = 97.5End IfIf KK = "AC-25II" ThenReDim Shangxian(11) As SingleReDim Xiaxian(11) As SingleReDim Zhongzhi(11) As SingleShangxian(0) = 5: Shangxian(1) = 8: Shangxian(2) = 12: Shangxian(3) = 16: Shangxian(4) = 23: Shangxian(5) = 30Shangxian(6) = 40: Shangxian(7) = 52: Shangxian(8) = 62: Shangxian(9) = 70: Shangxian(10) = 85: Shangxian(11) = 100Xiaxian(0) = 2: Xiaxian(1) = 3: Xiaxian(2) = 4: Xiaxian(3) = 6: Xiaxian(4) = 9: Xiaxian(5) = 13 Xiaxian(6) = 20: Xiaxian(7) = 32: Xiaxian(8) = 42: Xiaxian(9) = 52: Xiaxian(10) = 65: Xiaxian(11) = 90Zhongzhi(0) = 3.5: Zhongzhi(1) = 5.5: Zhongzhi(2) = 8: Zhongzhi(3) = 11: Zhongzhi(4) = 16: Zhongzhi(5) = 21.5Zhongzhi(6) = 30: Zhongzhi(7) = 42: Zhongzhi(8) = 52: Zhongzhi(9) = 61: Zhongzhi(10) = 75:Zhongzhi(11) = 95End IfIf KK = "AC-20I" ThenReDim Shangxian(10) As SingleReDim Xiaxian(10) As SingleReDim Zhongzhi(10) As SingleShangxian(0) = 8: Shangxian(1) = 14: Shangxian(2) = 20: Shangxian(3) = 27: Shangxian(4) = 34: Shangxian(5) = 46Shangxian(6) = 58: Shangxian(7) = 72: Shangxian(8) = 80: Shangxian(9) = 90: Shangxian(10) = 100Xiaxian(0) = 4: Xiaxian(1) = 6: Xiaxian(2) = 10: Xiaxian(3) = 15: Xiaxian(4) = 20: Xiaxian(5) = 28Xiaxian(6) = 38: Xiaxian(7) = 52: Xiaxian(8) = 62: Xiaxian(9) = 75: Xiaxian(10) = 95 Zhongzhi(0) = 6: Zhongzhi(1) = 10: Zhongzhi(2) = 15: Zhongzhi(3) = 21: Zhongzhi(4) = 27: Zhongzhi(5) = 37Zhongzhi(6) = 48: Zhongzhi(7) = 62: Zhongzhi(8) = 71: Zhongzhi(9) = 82.5: Zhongzhi(10) = 97.5 End IfIf KK = "AC-20II" ThenReDim Shangxian(10) As SingleReDim Xiaxian(10) As SingleReDim Zhongzhi(10) As SingleShangxian(0) = 5: Shangxian(1) = 9: Shangxian(2) = 13: Shangxian(3) = 18: Shangxian(4) = 25: Shangxian(5) = 33Shangxian(6) = 45: Shangxian(7) = 60: Shangxian(8) = 70: Shangxian(9) = 85: Shangxian(10) = 100Xiaxian(0) = 2: Xiaxian(1) = 3: Xiaxian(2) = 4: Xiaxian(3) = 7: Xiaxian(4) = 11: Xiaxian(5) = 16 Xiaxian(6) = 26: Xiaxian(7) = 40: Xiaxian(8) = 52: Xiaxian(9) = 65: Xiaxian(10) = 90 Zhongzhi(0) = 3.5: Zhongzhi(1) = 6: Zhongzhi(2) = 8.5: Zhongzhi(3) = 12.5: Zhongzhi(4) = 18: Zhongzhi(5) = 24.5Zhongzhi(6) = 35.5: Zhongzhi(7) = 50: Zhongzhi(8) = 61: Zhongzhi(9) = 75: Zhongzhi(10) = 95 End IfIf KK = "AC-16I" ThenReDim Shangxian(9) As SingleReDim Xiaxian(9) As SingleReDim Zhongzhi(9) As SingleShangxian(0) = 8: Shangxian(1) = 15: Shangxian(2) = 21: Shangxian(3) = 28: Shangxian(4) = 37 Shangxian(5) = 50: Shangxian(6) = 63: Shangxian(7) = 78: Shangxian(8) = 90: Shangxian(9) = 100Xiaxian(0) = 4: Xiaxian(1) = 7: Xiaxian(2) = 11: Xiaxian(3) = 16: Xiaxian(4) = 22Xiaxian(5) = 32: Xiaxian(6) = 42: Xiaxian(7) = 58: Xiaxian(8) = 75: Xiaxian(9) = 95Zhongzhi(0) = 6: Zhongzhi(1) = 11: Zhongzhi(2) = 16: Zhongzhi(3) = 22: Zhongzhi(4) = 29.5Zhongzhi(5) = 41: Zhongzhi(6) = 52.5: Zhongzhi(7) = 68: Zhongzhi(8) = 82.5: Zhongzhi(9) = 97.5End IfIf KK = "AC-16II" ThenReDim Shangxian(9) As SingleReDim Xiaxian(9) As SingleReDim Zhongzhi(9) As SingleShangxian(0) = 5: Shangxian(1) = 9: Shangxian(2) = 14: Shangxian(3) = 19: Shangxian(4) = 26 Shangxian(5) = 35: Shangxian(6) = 50: Shangxian(7) = 70: Shangxian(8) = 85: Shangxian(9) = 100Xiaxian(0) = 2: Xiaxian(1) = 3: Xiaxian(2) = 4: Xiaxian(3) = 7: Xiaxian(4) = 12Xiaxian(5) = 18: Xiaxian(6) = 30: Xiaxian(7) = 50: Xiaxian(8) = 65: Xiaxian(9) = 90Zhongzhi(0) = 3.5: Zhongzhi(1) = 6: Zhongzhi(2) = 9: Zhongzhi(3) = 13: Zhongzhi(4) = 19 Zhongzhi(5) = 26.5: Zhongzhi(6) = 40: Zhongzhi(7) = 60: Zhongzhi(8) = 75: Zhongzhi(9) = 95 End IfIf KK = "AC-13I" ThenReDim Shangxian(8) As SingleReDim Xiaxian(8) As SingleReDim Zhongzhi(8) As SingleShangxian(0) = 8: Shangxian(1) = 16: Shangxian(2) = 22: Shangxian(3) = 30: Shangxian(4) = 41 Shangxian(5) = 53: Shangxian(6) = 68: Shangxian(7) = 88: Shangxian(8) = 100Xiaxian(0) = 4: Xiaxian(1) = 8: Xiaxian(2) = 12: Xiaxian(3) = 18: Xiaxian(4) = 24Xiaxian(5) = 36: Xiaxian(6) = 48: Xiaxian(7) = 70: Xiaxian(8) = 95Zhongzhi(0) = 6: Zhongzhi(1) = 12: Zhongzhi(2) = 17: Zhongzhi(3) = 24: Zhongzhi(4) = 32.5 Zhongzhi(5) = 44.5: Zhongzhi(6) = 58: Zhongzhi(7) = 79: Zhongzhi(8) = 97.5End IfIf KK = "AC-13II" ThenReDim Shangxian(8) As SingleReDim Xiaxian(8) As SingleReDim Zhongzhi(8) As SingleShangxian(0) = 6: Shangxian(1) = 10: Shangxian(2) = 14: Shangxian(3) = 20: Shangxian(4) = 28 Shangxian(5) = 38: Shangxian(6) = 52: Shangxian(7) = 80: Shangxian(8) = 100Xiaxian(0) = 2: Xiaxian(1) = 3: Xiaxian(2) = 5: Xiaxian(3) = 8: Xiaxian(4) = 14Xiaxian(5) = 22: Xiaxian(6) = 34: Xiaxian(7) = 60: Xiaxian(8) = 90Zhongzhi(0) = 4: Zhongzhi(1) = 6.5: Zhongzhi(2) = 9.5: Zhongzhi(3) = 14: Zhongzhi(4) = 21 Zhongzhi(5) = 30: Zhongzhi(6) = 43: Zhongzhi(7) = 70: Zhongzhi(8) = 95End IfIf KK = "AC-10I" ThenReDim Shangxian(7) As SingleReDim Xiaxian(7) As SingleReDim Zhongzhi(7) As SingleShangxian(0) = 9: Shangxian(1) = 16: Shangxian(2) = 24: Shangxian(3) = 33Shangxian(4) = 43: Shangxian(5) = 58: Shangxian(6) = 75: Shangxian(7) = 100Xiaxian(0) = 4: Xiaxian(1) = 6: Xiaxian(2) = 10: Xiaxian(3) = 17Xiaxian(4) = 26: Xiaxian(5) = 38: Xiaxian(6) = 55: Xiaxian(7) = 95Zhongzhi(0) = 6.5: Zhongzhi(1) = 11: Zhongzhi(2) = 17: Zhongzhi(3) = 25Zhongzhi(4) = 34.5: Zhongzhi(5) = 48: Zhongzhi(6) = 65: Zhongzhi(7) = 97.5End IfIf KK = "AC-10II" ThenReDim Shangxian(7) As SingleReDim Xiaxian(7) As SingleReDim Zhongzhi(7) As SingleShangxian(0) = 6: Shangxian(1) = 10: Shangxian(2) = 15: Shangxian(3) = 22Shangxian(4) = 30: Shangxian(5) = 40: Shangxian(6) = 60: Shangxian(7) = 100Xiaxian(0) = 2: Xiaxian(1) = 4: Xiaxian(2) = 6: Xiaxian(3) = 9Xiaxian(4) = 15: Xiaxian(5) = 24: Xiaxian(6) = 40: Xiaxian(7) = 90Zhongzhi(0) = 4: Zhongzhi(1) = 7: Zhongzhi(2) = 10.5: Zhongzhi(3) = 15.5Zhongzhi(4) = 22.5: Zhongzhi(5) = 33: Zhongzhi(6) = 50: Zhongzhi(7) = 95End IfIf KK = "AC-5I" ThenReDim Shangxian(6) As SingleReDim Xiaxian(6) As SingleReDim Zhongzhi(6) As SingleShangxian(0) = 10: Shangxian(1) = 18: Shangxian(2) = 28: Shangxian(3) = 40Shangxian(4) = 55: Shangxian(5) = 75: Shangxian(6) = 100Xiaxian(0) = 5: Xiaxian(1) = 7: Xiaxian(2) = 12: Xiaxian(3) = 20Xiaxian(4) = 35: Xiaxian(5) = 55: Xiaxian(6) = 95Zhongzhi(0) = 7.5: Zhongzhi(1) = 12.5: Zhongzhi(2) = 20: Zhongzhi(3) = 30Zhongzhi(4) = 45: Zhongzhi(5) = 65: Zhongzhi(6) = 97.5End IfIf KK = "AK-16" ThenReDim Shangxian(9) As SingleReDim Xiaxian(9) As SingleReDim Zhongzhi(9) As SingleShangxian(0) = 7: Shangxian(1) = 10: Shangxian(2) = 13: Shangxian(3) = 18: Shangxian(4) = 25 Shangxian(5) = 35: Shangxian(6) = 45: Shangxian(7) = 70: Shangxian(8) = 82: Shangxian(9) = 100Xiaxian(0) = 3: Xiaxian(1) = 4: Xiaxian(2) = 6: Xiaxian(3) = 8: Xiaxian(4) = 10Xiaxian(5) = 15: Xiaxian(6) = 25: Xiaxian(7) = 45: Xiaxian(8) = 60: Xiaxian(9) = 90Zhongzhi(0) = 5: Zhongzhi(1) = 7: Zhongzhi(2) = 9.5: Zhongzhi(3) = 13: Zhongzhi(4) = 17.5 Zhongzhi(5) = 25: Zhongzhi(6) = 35: Zhongzhi(7) = 57.5: Zhongzhi(8) = 72: Zhongzhi(9) = 95End IfIf KK = "AK-13A" ThenReDim Shangxian(8) As SingleReDim Xiaxian(8) As SingleReDim Zhongzhi(8) As SingleShangxian(0) = 8: Shangxian(1) = 12: Shangxian(2) = 18: Shangxian(3) = 23: Shangxian(4) = 30 Shangxian(5) = 40: Shangxian(6) = 53: Shangxian(7) = 80: Shangxian(8) = 100Xiaxian(0) = 4: Xiaxian(1) = 5: Xiaxian(2) = 7: Xiaxian(3) = 10: Xiaxian(4) = 15Xiaxian(5) = 20: Xiaxian(6) = 30: Xiaxian(7) = 60: Xiaxian(8) = 90Zhongzhi(0) = 6: Zhongzhi(1) = 8.5: Zhongzhi(2) = 12.5: Zhongzhi(3) = 16.5: Zhongzhi(4) = 22.5 Zhongzhi(5) = 30: Zhongzhi(6) = 41.5: Zhongzhi(7) = 70: Zhongzhi(8) = 95End IfIf KK = "AK-13B" ThenReDim Shangxian(8) As SingleReDim Xiaxian(8) As SingleReDim Zhongzhi(8) As SingleShangxian(0) = 6: Shangxian(1) = 9: Shangxian(2) = 12: Shangxian(3) = 15: Shangxian(4) = 22 Shangxian(5) = 30: Shangxian(6) = 40: Shangxian(7) = 70: Shangxian(8) = 100Xiaxian(0) = 2: Xiaxian(1) = 3: Xiaxian(2) = 3: Xiaxian(3) = 5: Xiaxian(4) = 8Xiaxian(5) = 10: Xiaxian(6) = 18: Xiaxian(7) = 50: Xiaxian(8) = 85Zhongzhi(0) = 4: Zhongzhi(1) = 6: Zhongzhi(2) = 7.5: Zhongzhi(3) = 10: Zhongzhi(4) = 15 Zhongzhi(5) = 20: Zhongzhi(6) = 29: Zhongzhi(7) = 60: Zhongzhi(8) = 92.5End Ifjg00 = Form4.jg0: jg11 = Form4.jg1jg22 = Form4.jg2: jg33 = Form4.jg3jg44 = Form4.jg4: jg55 = Form4.jg5jg66 = Form4.jg6If JJ > 7 Then jg77 = Form4.jg7If JJ > 8 Then jg88 = Form4.jg8If JJ > 9 Then jg99 = Form4.jg9If JJ > 10 Then jg100 = Form4.jg10If JJ > 11 Then jg110 = Form4.jg11If JJ = 13 Then jg120 = Form4.jg12ReDim jgg(JJ - 1) As Singlejgg(0) = jg00: jgg(1) = jg11jgg(2) = jg22: jgg(3) = jg33jgg(4) = jg44: jgg(5) = jg55jgg(6) = jg66If JJ > 7 Then jgg(7) = jg77If JJ > 8 Then jgg(8) = jg88If JJ > 9 Then jgg(9) = jg99If JJ > 10 Then jgg(10) = jg100If JJ > 11 Then jgg(11) = jg110If JJ = 13 Then jgg(12) = jg120Picture1.Scale (0, 100)-(13, 0) '定义坐标For x = 0 To 100 Step 10 '画横线Picture1.Line (0, x)-(13, x)NextFor x = 0 To 13 Step 1 '画竖线Picture1.Line (x, 0)-(x, 100)NextFor x = 1 To JJ - 1 Step 1 '画上限Picture1.Line (x - 1, Shangxian(x - 1))-(x, Shangxian(x))NextFor x = 1 To JJ - 1 Step 1 '画下限Picture1.Line (x - 1, Xiaxian(x - 1))-(x, Xiaxian(x))NextFor x = 1 To JJ - 1 Step 1 '画中值Picture1.Line (x - 1, Zhongzhi(x - 1))-(x, Zhongzhi(x))NextFor x = 1 To JJ - 1 Step 1 '画合成级配Picture1.Line (x - 1, jgg(x - 1))-(x, jgg(x))NextEnd SubPrivate Sub Command2_Click()Unload MeEnd Subform4:Public III, JJJ As IntegerPublic KKK As StringPublic jg0, jg1, jg2, jg3, jg4, jg5, jg6, jg7, jg8, jg9, jg10, jg11, jg12 As IntegerDim Shangxian() As SingleDim Xiaxian() As SingleDim Zhongzhi() As SingleDim LM() As String 'LM—料名Dim SG0() As Single 'SG—筛分结果Dim SG1() As SingleDim SG2() As SingleDim SG3() As SingleDim SG4() As SingleDim SG5() As SingleDim SG6() As SingleDim jg() As Single 'JG—计算结果Dim BL() As Single 'BI—比例Dim wenjianming As StringDim filenumber As IntegerPrivate Sub Command3_Click()For y = 0 To JJJ Step 1 '级配计算If III = 2 Thenjg(y) = BL(0) * SG0(y) + BL(1) * SG1(y) + BL(2) * SG2(y)End IfIf III = 3 Thenjg(y) = BL(0) * SG0(y) + BL(1) * SG1(y) + BL(2) * SG2(y) + BL(3) * SG3(y)End IfIf III = 4 Thenjg(y) = BL(0) * SG0(y) + BL(1) * SG1(y) + BL(2) * SG2(y) + BL(3) * SG3(y) + BL(4) * SG4(y) End IfIf III = 5 Thenjg(y) = BL(0) * SG0(y) + BL(1) * SG1(y) + BL(2) * SG2(y) + BL(3) * SG3(y) + BL(4) * SG4(y) + BL(5) * SG5(y)End IfIf III = 6 Thenjg(y) = BL(0) * SG0(y) + BL(1) * SG1(y) + BL(2) * SG2(y) + BL(3) * SG3(y) + BL(4) * SG4(y) + BL(5) * SG5(y) + BL(6) * SG6(y)End Ifjg(y) = Int(jg(y) * 10 + 0.5) / 10Text11(y) = jg(y)Nextjg0 = jg(0): jg1 = jg(1) '将合成级配由数组表示转化为非数组表示jg2 = jg(2): jg3 = jg(3)jg4 = jg(4): jg5 = jg(5)jg6 = jg(6)If JJJ > 6 Then jg7 = jg(7)If JJJ > 7 Then jg8 = jg(8)If JJJ > 8 Then jg9 = jg(9)If JJJ > 9 Then jg10 = jg(10)If JJJ > 10 Then jg11 = jg(11)If JJJ = 12 Then jg12 = jg(12)End SubPrivate Sub Command4_Click() '显示级配图Form3.ShowEnd SubPrivate Sub Command5_Click() '退出Unload MeEnd SubPrivate Sub Command7_Click() '数据保存Open wenjianming For Output As #filenumber For x = 0 To III Step 1If x = 0 ThenWrite #filenumber, LM(0)Write #filenumber, BL(0)For y = 0 To JJJ Step 1SG0(y) = Text3(y)Write #filenumber, SG0(y)NextEnd IfIf x = 1 ThenWrite #filenumber, LM(1)Write #filenumber, BL(1)For y = 0 To JJJ Step 1SG1(y) = Text5(y)Write #filenumber, SG1(y)NextEnd IfIf x = 2 ThenWrite #filenumber, LM(2)Write #filenumber, BL(2)For y = 0 To JJJ Step 1SG2(y) = Text6(y)Write #filenumber, SG2(y)NextEnd IfIf x = 3 ThenWrite #filenumber, LM(3)Write #filenumber, BL(3)For y = 0 To JJJ Step 1SG3(y) = Text7(y)Write #filenumber, SG3(y)NextEnd IfIf x = 4 ThenWrite #filenumber, LM(4)Write #filenumber, BL(4)For y = 0 To JJJ Step 1SG4(y) = Text8(y)Write #filenumber, SG4(y)NextEnd IfIf x = 5 ThenWrite #filenumber, LM(5)Write #filenumber, BL(5)For y = 0 To JJJ Step 1SG5(y) = Text9(y)Write #filenumber, SG5(y)NextEnd IfIf x = 6 ThenWrite #filenumber, LM(6)Write #filenumber, BL(6)For y = 0 To JJJ Step 1SG6(y) = Text10(y)Write #filenumber, SG6(y)NextEnd IfNextClose #filenumberEnd SubPrivate Sub Command8_Click() '数据恢复Open wenjianming For Input As #filenumber For x = 0 To III Step 1If x = 0 ThenInput #filenumber, LM(0)Text1(0) = LM(0)Input #filenumber, BL(0)Text2(0) = BL(0)For y = 0 To JJJ Step 1Input #filenumber, SG0(y)Text3(y) = SG0(y)NextEnd IfIf x = 1 ThenInput #filenumber, LM(1) Text1(1) = LM(1)Input #filenumber, BL(1) Text2(1) = BL(1)For y = 0 To JJJ Step 1 Input #filenumber, SG1(y) Text5(y) = SG1(y)NextEnd IfIf x = 2 ThenInput #filenumber, LM(2) Text1(2) = LM(2)Input #filenumber, BL(2) Text2(2) = BL(2)For y = 0 To JJJ Step 1 Input #filenumber, SG2(y) Text6(y) = SG2(y)NextEnd IfIf x = 3 ThenInput #filenumber, LM(3) Text1(3) = LM(3)Input #filenumber, BL(3) Text2(3) = BL(3)For y = 0 To JJJ Step 1 Input #filenumber, SG3(y) Text7(y) = SG3(y)NextEnd IfIf x = 4 ThenInput #filenumber, LM(4) Text1(4) = LM(4)Input #filenumber, BL(4) Text2(4) = BL(4)For y = 0 To JJJ Step 1 Input #filenumber, SG4(y) Text8(y) = SG4(y)NextEnd IfIf x = 5 ThenInput #filenumber, LM(5)Text1(5) = LM(5)Input #filenumber, BL(5)Text2(5) = BL(5)For y = 0 To JJJ Step 1Input #filenumber, SG5(y)Text9(y) = SG5(y)NextEnd IfIf x = 6 ThenInput #filenumber, LM(6)Text1(6) = LM(6)Input #filenumber, BL(6)Text2(6) = BL(6)For y = 0 To JJJ Step 1Input #filenumber, SG6(y)Text10(y) = SG6(y)NextEnd IfNextClose #filenumberEnd SubPrivate Sub Form_Load()III = Form2.I: III = III - 1JJJ = Form2.J: JJJ = JJJ - 1KKK = Form2.Kwenjianming = Form2.Kfilenumber = Form2.IReDim LM(III) As StringReDim SG0(JJJ) As SingleReDim SG1(JJJ) As SingleReDim SG2(JJJ) As SingleReDim SG3(JJJ) As SingleReDim SG4(JJJ) As SingleReDim SG5(JJJ) As SingleReDim SG6(JJJ) As SingleReDim jg(JJJ) As SingleReDim BL(III) As SingleText4 = KKKIf KKK = "AC-30I" Then '上下限与中值ReDim Shangxian(12) As SingleReDim Xiaxian(12) As SingleReDim Zhongzhi(12) As SingleShangxian(0) = 7: Shangxian(1) = 13: Shangxian(2) = 18: Shangxian(3) = 25: Shangxian(4) = 32:Shangxian(5) = 42Shangxian(6) = 52: Shangxian(7) = 63: Shangxian(8) = 72: Shangxian(9) = 77: Shangxian(10) = 82: Shangxian(11) = 92Shangxian(12) = 100Xiaxian(0) = 3: Xiaxian(1) = 5: Xiaxian(2) = 8: Xiaxian(3) = 13: Xiaxian(4) = 18: Xiaxian(5) = 25: Xiaxian(6) = 32Xiaxian(7) = 43: Xiaxian(8) = 52: Xiaxian(9) = 59: Xiaxian(10) = 66: Xiaxian(11) = 79: Xiaxian(12) = 90Zhongzhi(0) = 5: Zhongzhi(1) = 9: Zhongzhi(2) = 13: Zhongzhi(3) = 19: Zhongzhi(4) = 25: Zhongzhi(5) = 33.5Zhongzhi(6) = 42: Zhongzhi(7) = 53: Zhongzhi(8) = 62: Zhongzhi(9) = 68: Zhongzhi(10) = 74: Zhongzhi(11) = 85.5Zhongzhi(12) = 95End IfIf KKK = "AC-30II" ThenReDim Shangxian(12) As SingleReDim Xiaxian(12) As SingleReDim Zhongzhi(12) As SingleShangxian(0) = 5: Shangxian(1) = 7: Shangxian(2) = 11: Shangxian(3) = 14: Shangxian(4) = 20: Shangxian(5) = 28Shangxian(6) = 38: Shangxian(7) = 50: Shangxian(8) = 58: Shangxian(9) = 65: Shangxian(10) = 70: Shangxian(11) = 85Shangxian(12) = 100Xiaxian(0) = 1: Xiaxian(1) = 2: Xiaxian(2) = 3: Xiaxian(3) = 4: Xiaxian(4) = 8: Xiaxian(5) = 12: Xiaxian(6) = 18Xiaxian(7) = 30: Xiaxian(8) = 38: Xiaxian(9) = 45: Xiaxian(10) = 52: Xiaxian(11) = 65: Xiaxian(12) = 90Zhongzhi(0) = 3: Zhongzhi(1) = 4.5: Zhongzhi(2) = 7: Zhongzhi(3) = 9: Zhongzhi(4) = 12: Zhongzhi(5) = 20Zhongzhi(6) = 28: Zhongzhi(7) = 40: Zhongzhi(8) = 48: Zhongzhi(9) = 55: Zhongzhi(10) = 61: Zhongzhi(11) = 75Zhongzhi(12) = 95End IfIf KKK = "AC-25I" ThenReDim Shangxian(11) As SingleReDim Xiaxian(11) As SingleReDim Zhongzhi(11) As SingleShangxian(0) = 7: Shangxian(1) = 13: Shangxian(2) = 18: Shangxian(3) = 25: Shangxian(4) = 32: Shangxian(5) = 42Shangxian(6) = 52: Shangxian(7) = 63: Shangxian(8) = 73: Shangxian(9) = 80: Shangxian(10) = 90: Shangxian(11) = 100Xiaxian(0) = 3: Xiaxian(1) = 5: Xiaxian(2) = 8: Xiaxian(3) = 13: Xiaxian(4) = 18: Xiaxian(5) = 25 Xiaxian(6) = 32: Xiaxian(7) = 43: Xiaxian(8) = 53: Xiaxian(9) = 62: Xiaxian(10) = 75: Xiaxian(11) = 95Zhongzhi(0) = 5: Zhongzhi(1) = 8.5: Zhongzhi(2) = 13: Zhongzhi(3) = 19: Zhongzhi(4) = 25: Zhongzhi(5) = 33.5Zhongzhi(6) = 42: Zhongzhi(7) = 53: Zhongzhi(8) = 63: Zhongzhi(9) = 71: Zhongzhi(10) = 82.5: Zhongzhi(11) = 97.5End IfIf KKK = "AC-25II" ThenReDim Shangxian(11) As SingleReDim Xiaxian(11) As SingleReDim Zhongzhi(11) As SingleShangxian(0) = 5: Shangxian(1) = 8: Shangxian(2) = 12: Shangxian(3) = 16: Shangxian(4) = 23: Shangxian(5) = 30Shangxian(6) = 40: Shangxian(7) = 52: Shangxian(8) = 62: Shangxian(9) = 70: Shangxian(10) = 85: Shangxian(11) = 100Xiaxian(0) = 2: Xiaxian(1) = 3: Xiaxian(2) = 4: Xiaxian(3) = 6: Xiaxian(4) = 9: Xiaxian(5) = 13 Xiaxian(6) = 20: Xiaxian(7) = 32: Xiaxian(8) = 42: Xiaxian(9) = 52: Xiaxian(10) = 65: Xiaxian(11) = 90Zhongzhi(0) = 3.5: Zhongzhi(1) = 5.5: Zhongzhi(2) = 8: Zhongzhi(3) = 11: Zhongzhi(4) = 11: Zhongzhi(5) = 21.5Zhongzhi(6) = 30: Zhongzhi(7) = 42: Zhongzhi(8) = 52: Zhongzhi(9) = 61: Zhongzhi(10) = 75: Zhongzhi(11) = 95End IfIf KKK = "AC-20I" ThenReDim Shangxian(10) As SingleReDim Xiaxian(10) As SingleReDim Zhongzhi(10) As SingleShangxian(0) = 8: Shangxian(1) = 14: Shangxian(2) = 20: Shangxian(3) = 27: Shangxian(4) = 34: Shangxian(5) = 46Shangxian(6) = 58: Shangxian(7) = 72: Shangxian(8) = 80: Shangxian(9) = 90: Shangxian(10) = 100Xiaxian(0) = 4: Xiaxian(1) = 6: Xiaxian(2) = 10: Xiaxian(3) = 15: Xiaxian(4) = 20: Xiaxian(5) = 28Xiaxian(6) = 38: Xiaxian(7) = 52: Xiaxian(8) = 62: Xiaxian(9) = 75: Xiaxian(10) = 95 Zhongzhi(0) = 6: Zhongzhi(1) = 10: Zhongzhi(2) = 15: Zhongzhi(3) = 21: Zhongzhi(4) = 27: Zhongzhi(5) = 37Zhongzhi(6) = 48: Zhongzhi(7) = 62: Zhongzhi(8) = 71: Zhongzhi(9) = 82.5: Zhongzhi(10) = 97.5 End IfIf KKK = "AC-20II" ThenReDim Shangxian(10) As SingleReDim Xiaxian(10) As SingleReDim Zhongzhi(10) As SingleShangxian(0) = 5: Shangxian(1) = 9: Shangxian(2) = 13: Shangxian(3) = 18: Shangxian(4) = 25: Shangxian(5) = 33Shangxian(6) = 45: Shangxian(7) = 60: Shangxian(8) = 70: Shangxian(9) = 85: Shangxian(10) = 100Xiaxian(0) = 2: Xiaxian(1) = 3: Xiaxian(2) = 4: Xiaxian(3) = 7: Xiaxian(4) = 11: Xiaxian(5) = 16 Xiaxian(6) = 26: Xiaxian(7) = 40: Xiaxian(8) = 52: Xiaxian(9) = 65: Xiaxian(10) = 90 Zhongzhi(0) = 3.5: Zhongzhi(1) = 6: Zhongzhi(2) = 8.5: Zhongzhi(3) = 12.5: Zhongzhi(4) = 18: Zhongzhi(5) = 24.5Zhongzhi(6) = 35.5: Zhongzhi(7) = 50: Zhongzhi(8) = 61: Zhongzhi(9) = 75: Zhongzhi(10) = 95 End IfIf KKK = "AC-16I" ThenReDim Shangxian(9) As SingleReDim Xiaxian(9) As SingleReDim Zhongzhi(9) As SingleShangxian(0) = 8: Shangxian(1) = 15: Shangxian(2) = 21: Shangxian(3) = 28: Shangxian(4) = 37 Shangxian(5) = 50: Shangxian(6) = 63: Shangxian(7) = 78: Shangxian(8) = 90: Shangxian(9) = 100Xiaxian(0) = 4: Xiaxian(1) = 7: Xiaxian(2) = 11: Xiaxian(3) = 16: Xiaxian(4) = 22Xiaxian(5) = 32: Xiaxian(6) = 42: Xiaxian(7) = 58: Xiaxian(8) = 75: Xiaxian(9) = 95Zhongzhi(0) = 6: Zhongzhi(1) = 11: Zhongzhi(2) = 16: Zhongzhi(3) = 22: Zhongzhi(4) = 29.5 Zhongzhi(5) = 41: Zhongzhi(6) = 52.5: Zhongzhi(7) = 68: Zhongzhi(8) = 82.5: Zhongzhi(9) = 97.5End IfIf KKK = "AC-16II" ThenReDim Shangxian(9) As SingleReDim Xiaxian(9) As SingleReDim Zhongzhi(9) As SingleShangxian(0) = 5: Shangxian(1) = 9: Shangxian(2) = 14: Shangxian(3) = 19: Shangxian(4) = 26 Shangxian(5) = 35: Shangxian(6) = 50: Shangxian(7) = 70: Shangxian(8) = 85: Shangxian(9) = 100Xiaxian(0) = 2: Xiaxian(1) = 3: Xiaxian(2) = 4: Xiaxian(3) = 7: Xiaxian(4) = 12Xiaxian(5) = 18: Xiaxian(6) = 30: Xiaxian(7) = 50: Xiaxian(8) = 65: Xiaxian(9) = 90Zhongzhi(0) = 3.5: Zhongzhi(1) = 6: Zhongzhi(2) = 9: Zhongzhi(3) = 13: Zhongzhi(4) = 19 Zhongzhi(5) = 26.5: Zhongzhi(6) = 40: Zhongzhi(7) = 60: Zhongzhi(8) = 75: Zhongzhi(9) = 95 End IfIf KKK = "AC-13I" ThenReDim Shangxian(8) As SingleReDim Xiaxian(8) As SingleReDim Zhongzhi(8) As SingleShangxian(0) = 8: Shangxian(1) = 16: Shangxian(2) = 22: Shangxian(3) = 30: Shangxian(4) = 41 Shangxian(5) = 53: Shangxian(6) = 68: Shangxian(7) = 88: Shangxian(8) = 100Xiaxian(0) = 4: Xiaxian(1) = 8: Xiaxian(2) = 12: Xiaxian(3) = 18: Xiaxian(4) = 24Xiaxian(5) = 36: Xiaxian(6) = 48: Xiaxian(7) = 70: Xiaxian(8) = 95Zhongzhi(0) = 6: Zhongzhi(1) = 12: Zhongzhi(2) = 17: Zhongzhi(3) = 24: Zhongzhi(4) = 32.5 Zhongzhi(5) = 44.5: Zhongzhi(6) = 58: Zhongzhi(7) = 79: Zhongzhi(8) = 97.5End IfIf KKK = "AC-13II" ThenReDim Shangxian(8) As SingleReDim Zhongzhi(8) As SingleShangxian(0) = 6: Shangxian(1) = 10: Shangxian(2) = 14: Shangxian(3) = 20: Shangxian(4) = 28 Shangxian(5) = 38: Shangxian(6) = 52: Shangxian(7) = 80: Shangxian(8) = 100Xiaxian(0) = 2: Xiaxian(1) = 3: Xiaxian(2) = 5: Xiaxian(3) = 8: Xiaxian(4) = 14Xiaxian(5) = 22: Xiaxian(6) = 34: Xiaxian(7) = 60: Xiaxian(8) = 90Zhongzhi(0) = 4: Zhongzhi(1) = 6.5: Zhongzhi(2) = 9.5: Zhongzhi(3) = 14: Zhongzhi(4) = 21 Zhongzhi(5) = 30: Zhongzhi(6) = 43: Zhongzhi(7) = 70: Zhongzhi(8) = 95End IfIf KKK = "AC-10I" ThenReDim Shangxian(7) As SingleReDim Xiaxian(7) As SingleReDim Zhongzhi(7) As SingleShangxian(0) = 9: Shangxian(1) = 16: Shangxian(2) = 24: Shangxian(3) = 33Shangxian(4) = 43: Shangxian(5) = 58: Shangxian(6) = 75: Shangxian(7) = 100Xiaxian(0) = 4: Xiaxian(1) = 6: Xiaxian(2) = 10: Xiaxian(3) = 17Xiaxian(4) = 26: Xiaxian(5) = 38: Xiaxian(6) = 55: Xiaxian(7) = 95Zhongzhi(0) = 6.5: Zhongzhi(1) = 11: Zhongzhi(2) = 17: Zhongzhi(3) = 25Zhongzhi(4) = 34.5: Zhongzhi(5) = 48: Zhongzhi(6) = 65: Zhongzhi(7) = 97.5End IfIf KKK = "AC-10II" ThenReDim Shangxian(7) As SingleReDim Xiaxian(7) As SingleReDim Zhongzhi(7) As SingleShangxian(0) = 6: Shangxian(1) = 10: Shangxian(2) = 15: Shangxian(3) = 22Shangxian(4) = 30: Shangxian(5) = 40: Shangxian(6) = 60: Shangxian(7) = 100Xiaxian(0) = 2: Xiaxian(1) = 4: Xiaxian(2) = 6: Xiaxian(3) = 9Xiaxian(4) = 15: Xiaxian(5) = 24: Xiaxian(6) = 40: Xiaxian(7) = 90Zhongzhi(0) = 4: Zhongzhi(1) = 7: Zhongzhi(2) = 10.5: Zhongzhi(3) = 15.5Zhongzhi(4) = 22.5: Zhongzhi(5) = 33: Zhongzhi(6) = 50: Zhongzhi(7) = 95End IfIf KKK = "AC-5I" ThenReDim Shangxian(6) As SingleReDim Xiaxian(6) As SingleReDim Zhongzhi(6) As SingleShangxian(0) = 10: Shangxian(1) = 18: Shangxian(2) = 28: Shangxian(3) = 40Shangxian(4) = 55: Shangxian(5) = 75: Shangxian(6) = 100Xiaxian(0) = 5: Xiaxian(1) = 7: Xiaxian(2) = 12: Xiaxian(3) = 20Xiaxian(4) = 35: Xiaxian(5) = 55: Xiaxian(6) = 95Zhongzhi(0) = 7.5: Zhongzhi(1) = 12.5: Zhongzhi(2) = 20: Zhongzhi(3) = 30Zhongzhi(4) = 45: Zhongzhi(5) = 65: Zhongzhi(6) = 97.5End IfIf KKK = "AK-16" ThenReDim Shangxian(9) As Single。