金属組織検査は、製品の品質を管理、評価するために不可欠かつ重要な手段です。これは、科学研究において材料や新しいプロセスを研究し、材料の本質的な品質を向上させるための重要な方法です。
金属組織学的分析を行うには、顕微鏡検査に使用できるサンプル、つまり金属組織学的試料を準備する必要があります。通常、金属組織標本はサンプリング、取り付け、研削、研磨といういくつかのステップを経て作成されます。
金属組織学的分析手法は、金属、セラミックス、プラスチック、回路基板、鉱石などを含む多くの種類の固体材料の分析に適用されており、品質検査、故障解析、固体材料研究室でも広く使用されています。
Each step should be performed carefully, as physical objects at any stage may affect the final result, as this may create organizational artifacts and lead to erroneous conclusions. The preparation of metallographic samples is completed by cutting machines, mounting machines, and grinding/polishing machines.
The interception of metallographic samples is an important step in the preparation process of metallographic samples. Methods for cutting out patterns include hand saws, sawing machines, grinding wheel cutting machines, wire cutting machines, etc.
Depending on the shape and material of the part, choose the appropriate method for cutting. Grinding wheel cutting machines are mainly widely used in cutting metallographic samples because of their strong adaptability and relatively high cutting accuracy. Resin grinding wheels can cut soft metal parts such as copper, aluminum and alloys and hard metal parts such as quenched Then carbon steel, high speed steel. Diamond cutting blades can cut super-hard materials such as carbide.
Metallographic analysis methods have been applied in the analysis of many types of solid materials including metals, ceramics, plastics, circuit boards, ores, etc., and are also widely used in quality inspection, failure analysis and solid materials research laboratories.
金属組織学的分析を行うには、顕微鏡検査に使用できるサンプル、つまり金属組織学的試料を準備する必要があります。通常、金属組織標本はサンプリング、取り付け、研削、研磨といういくつかのステップを経て作成されます。
金属組織学的分析手法は、金属、セラミックス、プラスチック、回路基板、鉱石などを含む多くの種類の固体材料の分析に適用されており、品質検査、故障解析、固体材料研究室でも広く使用されています。
Each step should be performed carefully, as physical objects at any stage may affect the final result, as this may create organizational artifacts and lead to erroneous conclusions. The preparation of metallographic samples is completed by cutting machines, mounting machines, and grinding/polishing machines.
The interception of metallographic samples is an important step in the preparation process of metallographic samples. Methods for cutting out patterns include hand saws, sawing machines, grinding wheel cutting machines, wire cutting machines, etc.
Depending on the shape and material of the part, choose the appropriate method for cutting. Grinding wheel cutting machines are mainly widely used in cutting metallographic samples because of their strong adaptability and relatively high cutting accuracy. Resin grinding wheels can cut soft metal parts such as copper, aluminum and alloys and hard metal parts such as quenched Then carbon steel, high speed steel. Diamond cutting blades can cut super-hard materials such as carbide.
Metallographic analysis methods have been applied in the analysis of many types of solid materials including metals, ceramics, plastics, circuit boards, ores, etc., and are also widely used in quality inspection, failure analysis and solid materials research laboratories.