CN104677768B - 一种冶金熔渣中水分的测定方法 - Google Patents

一种冶金熔渣中水分的测定方法 Download PDF

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CN104677768B
CN104677768B CN201510120059.9A CN201510120059A CN104677768B CN 104677768 B CN104677768 B CN 104677768B CN 201510120059 A CN201510120059 A CN 201510120059A CN 104677768 B CN104677768 B CN 104677768B
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CN104677768A (zh
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裘友玖
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Guoming Ductile Iron Pipes Co Ltd
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Abstract

一种冶金熔渣中水分的测定方法,包括以下步骤:将熔渣以矩形形状平铺于水平地面上,并采用采用三行三列的布点方式在矩形炉渣内等分取9个交叉点;随机抽取三个交叉点,在交叉点处取样取2~4t的熔渣,将所有取样颗粒度破碎至200mm以内,混合成大样后以矩形形状平铺于水平地面上,在熔渣中心做好标识;用铲车取出标识处的熔渣,并将铲车铲斗中部横向距离200~300mm处的熔渣取出水分初样;按水分初样中细样、粗样的质量比例分别取出一定的细样和粗样组合成总质量为10kg的水分试样,测定出水分试样的含水百分比。本发明可顺利从大批量熔渣中取出具有代表性的熔渣分析样,保证了冶金熔渣水分分析数据的真实性。

Description

一种冶金熔渣中水分的测定方法
技术领域
本发明涉及化学成分取样领域,尤其是一种使用于渣量较大时冶金熔渣中水分的测定方法。
背景技术
在进行冶金熔渣化学成分分析时,往往首先要测定熔渣中水分的含量。但冶金熔渣的量往往比较大,渣的质量有时大于1000t,而且在同一质量时不同颗粒度的熔渣水分含量也会不同,所以要准确地测定出冶炼熔渣中水分含量就必须在大批量冶炼熔渣中选取出具有代表性的试样,再进行水分测量。但是,目前仍无一种适应于大批量冶金熔渣的测定方法,如用现有的冶金熔渣测定方法并不能反映大批量冶金熔渣的真实水分含量。
发明内容
本发明的目的在于克服现有技术中冶金熔渣的取样缺陷,提出了一种适用于大批量冶金熔渣的水分测定方法,该方法保证了大批量冶金熔渣水分分析数据的真实性。
为了解决上述问题,本发明采用的技术方案是:
一种冶金熔渣中水分的测定方法,包括以下步骤:
(1)将熔渣破碎至600mm以内,以矩形形状平铺于水平地面上,熔渣的平铺高度为400~600mm,并采用采用三行三列的布点方式在矩形炉渣内等分取9个交叉点;
(2)随机抽取三个步骤(1)中所述的交叉点,在交叉点处取样取2~4t的熔渣,将所有取样颗粒度破碎至200mm以内,混合成大样后以矩形形状平铺于水平地面上,平铺高度为150~200mm,在熔渣中心做好标识;
(3)用铲车取出步骤(2)中所述标识处的熔渣,并将铲车铲斗中部横向距离200~300mm处的熔渣取出,记为水分初样;
(4)将所述水分初样中颗粒度小于10mm的熔渣记为细样,其余的熔渣记为粗样,称出细样的质量MA,粗样的质量MB,并从水分初样中取出10kg熔渣记为水分试样,测定出水分试样的含水百分比水;所述水分试样中细样与粗样的质量比为MA:MB
本发明与现有技术相比具有的有益效果是:通过三行三列的布点方式取样,可顺利地从大批量熔渣中取出具有代表性的熔渣分析样,从而保证了大批量冶金熔渣中水分分析数据的真实性。
具体实施方式
下面结合实施例对本发明作进一步详述:
实施例1
一种用于1000t的冶金熔渣中水分的测定方法,包括以下步骤:
第一步,将熔渣破碎至600mm以内,以矩形形状平铺于水平地面上,熔渣的平铺高度为400~600mm,并采用采用三行三列的布点方式在矩形炉渣内等分取9个交叉点;需注意的是,交叉点应等分设在熔渣的矩形框内。
第二步,利用抽签方式随机抽取出三个上述步骤中的交叉点,在交叉点处取样取2~4t的熔渣,用打渣机将所有取样颗粒度破碎至200mm以内,混合均匀制成大样后以矩形形状平铺于水平地面上,平铺高度为150~200mm,并在熔渣中心做好标识。
第三步,用铲车取出步骤二中标识处的熔渣,取样时先移开标识附近的熔渣,再选取标识处的熔渣,取样时必须将标识处端面的熔渣选取干净,不允许有粉末状的熔渣遗留在地面上,接着将铲车铲斗中部横向距离200~300mm处的熔渣取出,记为水分初样。铲斗中部横向距离的计量方法为:以铲车铲斗的中心线为基线向铲斗的两边对称延伸,延伸的总距离为200mm,此时水分初样的总质量为148.97kg。
第四步,将步骤三水分初样中颗粒度小于10mm的熔渣记为细样,其余的熔渣记为粗样,并称量出细样的质量为28.7kg,粗样的质量为120.27kg。然后从上述水分初样中取出10kg熔渣记为水分试样,测定出水分试样的含水百分比,测量所得水分试样的含水百分比即为该批次冶金熔渣的含水百分比。其中,该水分试样中细样的质量为1.93kg,粗样的质量为8.07kg。
实施例2
本实施例与实施例1所不同的是,
第三步,用铲车取出步骤二中标识处的熔渣,取样时先移开标识附近的熔渣,再选取标识处的熔渣,取样时必须将标识处端面的熔渣选取干净,不允许有粉末状的熔渣遗留在地面上,接着将铲车铲斗中部横向距离200~300mm处的熔渣取出,记为水分初样。铲斗中部横向距离的计量方法为:以铲车铲斗的中心线为基线向铲斗的两边对称延伸,延伸的总距离为300mm,此时水分初样的总质量为216kg。
第四步,将步骤三水分初样中颗粒度小于10mm的熔渣记为细样,其余的熔渣记为粗样,并称量出细样的质量为98kg,粗样的质量为118kg。然后从上述水分初样中取出10kg熔渣记为水分试样,测定出水分试样的含水百分比,测量所得水分试样的含水百分比即为该批次冶金熔渣的含水百分比。其中,该水分试样中细样的质量为4.53kg,粗样的质量为5.47kg。
通过三行三列的布点方式取样,可顺利地从大批量熔渣中取出具有代表性的熔渣分析样,从而保证了大批量冶金熔渣中水分分析数据的真实性。

Claims (1)

1.一种冶金熔渣中水分的测定方法,其特征在于,该方法包括以下步骤:
(1)将熔渣破碎至600mm以内,以矩形形状平铺于水平地面上,熔渣的平铺高度为400~600mm,并采用采用三行三列的布点方式在矩形炉渣内等分取9个交叉点;
(2)随机抽取三个步骤(1)中所述的交叉点,在交叉点处取样取2~4t的熔渣,用打渣机将所有取样颗粒度破碎至200mm以内,混合均匀制成大样后以矩形形状平铺于水平地面上,平铺高度为150~200mm,在熔渣中心做好标识;
(3)用铲车取出步骤(2)中所述标识处的熔渣,并将铲车铲斗中部横向距离200~300mm处的熔渣取出,记为水分初样;
(4)将所述水分初样中颗粒度小于10mm的熔渣记为细样,其余的熔渣记为粗样,称出细样的质量MA,粗样的质量MB,并从水分初样中取出10kg熔渣记为水分试样,测定出水分试样的含水百分比水;所述水分试样中细样与粗样的质量比为MA:MB
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