概要 超硬ソリッドインサート
If you’re into metalworking or machining, you’ve likely come across solid carbide inserts. These tiny yet mighty tools are essential for cutting and shaping metals with precision and efficiency. But what exactly makes them so special? Let’s dive into the world of solid carbide inserts, exploring their types, applications, properties, and everything in between.
Solid carbide inserts are renowned for their durability and ability to withstand high temperatures, making them indispensable in various industrial applications. They’re crafted from a composite material that includes fine particles of carbide, usually tungsten, held together by a metallic binder, typically cobalt. This combination results in a tool that’s incredibly hard and wear-resistant.
種類 超硬ソリッドインサート
Carbide inserts come in various shapes and sizes, each tailored for specific tasks. Here’s a detailed table to help you understand the different types of solid carbide inserts:
| インサート・タイプ | 形状 | 申し込み | 特徴 |
|---|---|---|---|
| シーエヌエムジー | Rhomboid | 一般旋削 | Versatile, 4 cutting edges |
| TNMG | トライアングル | Heavy turning | 6 cutting edges, robust |
| DNMG | ダイヤモンド | Precision turning | 4 cutting edges, high precision |
| ブイエヌエムジー | V-shape | 仕上げ | 2 cutting edges, great for finishing |
| SNMG | 正方形 | ラフティング | 8 cutting edges, excellent for roughing |
| WNMG | トライゴン | 半仕上げ | 6 cutting edges, good balance |
| シーシーエムティー | 正方形 | Light turning | Positive rake, low cutting forces |
| ディーシーエムティー | ダイヤモンド | Copy turning | High precision, fine finish |
| TCMT | トライアングル | Light finishing | Positive rake, low cutting forces |
| SCMT | 正方形 | 一般機械加工 | Sturdy, versatile |
Applications of Solid Carbide Inserts
Solid carbide inserts are used in a variety of industries, from automotive to aerospace. Below is a table summarizing their applications:
| 産業 | 申し込み | 説明 |
|---|---|---|
| 自動車 | Engine components | Precision machining of pistons, gears |
| 航空宇宙 | Turbine blades | High-temperature resistance |
| メディカル | Surgical instruments | Precise and clean cuts |
| 石油・ガス | ドリリングツール | Durable and wear-resistant |
| エレクトロニクス | PCB manufacturing | Fine and precise cutting |
| 一般エンジニアリング | 金型 | Versatile and robust |
Material Properties of Solid Carbide Inserts
Understanding the material properties of solid carbide inserts is crucial for selecting the right one for your needs. Here’s a detailed table:
| プロパティ | 説明 | Value Range |
|---|---|---|
| 硬度 | 耐変形性 | 90-94 HRA |
| タフネス | Resistance to fracture | 高い |
| 耐摩耗性 | Resistance to abrasion | 素晴らしい |
| 熱伝導率 | 熱伝導能力 | 70-100 W/m.K |
| 密度 | 単位体積当たりの質量 | 14.0-15.5 g/cm³ |
構成と特徴
The composition and characteristics of solid carbide inserts are critical for their performance. Here’s a table summarizing these aspects:
| エレメント | パーセント | 役割 |
|---|---|---|
| 炭化タングステン(WC) | 70-97% | 硬度 |
| コバルト | 3-30% | バインダーとして働く |
| 炭化チタン(TiC) | 0-25% | Increases toughness |
| 炭化タンタル(TaC) | 0-15% | Enhances wear resistance |
| 炭化ニオブ (NbC) | 0-15% | Improves thermal stability |
硬度、強度、耐摩耗性
Carbide inserts need to balance hardness, strength, and wear resistance. Here’s a comparative table:
| パラメータ | 説明 | Typical Value |
|---|---|---|
| 硬度 | Resistance to indentation | 90-94 HRA |
| 圧縮強度 | Resistance to compression | 5000-7000 MPa |
| 耐摩耗性 | Resistance to material loss | 素晴らしい |
仕様、サイズ、形状、規格
The specifications of solid carbide inserts can vary widely. Here’s a detailed table to guide you:
| 仕様 | サイズ | 形状 | スタンダード |
|---|---|---|---|
| ISO Inserts | 様々な | 様々な | ISO 1832 |
| ANSI Inserts | 様々な | 様々な | ANSI B212 |
| DIN Inserts | 様々な | 様々な | DIN 4987 |
| JIS Inserts | 様々な | 様々な | JIS B 4130 |
サプライヤーと価格詳細
When it comes to purchasing solid carbide inserts, knowing the suppliers and pricing can help you make an informed decision. Here’s a table with details:
| サプライヤー | 所在地 | 価格帯 | 備考 |
|---|---|---|---|
| サンドビック・コロマント | グローバル | $10-$50 per insert | High quality |
| ケナメタル | グローバル | $15-$60 per insert | Durable |
| 三菱マテリアル | グローバル | $12-$55 per insert | Reliable |
| セコ・ツールズ | グローバル | $10-$50 per insert | Versatile |
| ウォルターAG | グローバル | $14-$58 per insert | 精密 |
Selecting the Right Solid Carbide Inserts
Choosing the right carbide insert can be tricky. Here’s a table to help you make the best choice:
| 基準 | 考察 | Recommended Inserts |
|---|---|---|
| 素材硬度 | Harder materials require tougher inserts | CNMG, TNMG |
| 表面仕上げ | For fine finishes, use inserts with positive rake angles | VNMG, DCMT |
| 切断速度 | High-speed operations need inserts with high wear resistance | CNMG, SNMG |
| Machine Type | Ensure compatibility with your machine tool | CCMT, TCMT |
| 申し込み | Specific tasks require specific insert shapes | DNMG, WNMG |
Advantages and Limitations of Solid Carbide Inserts
Solid carbide inserts have their pros and cons. Here’s a comparative table:
| アスペクト | メリット | 制限事項 |
|---|---|---|
| 硬度 | 優れた耐摩耗性 | Brittle, prone to chipping |
| 温度 | High thermal stability | Can be costly |
| 汎用性 | Suitable for various materials | Requires precise handling |
| Life Span | Long-lasting compared to HSS | Initial cost is higher |
よくあるご質問
何をするのか? solid carbide inserts made of Composition?
Solid carbide inserts are primarily made of tungsten carbide, cobalt, and sometimes other carbides like titanium, tantalum, or niobium.
正しい超硬チップの選び方は?
Consider factors like the material you’re cutting, the required surface finish, cutting speed, and your machine type. Refer to our selection table for detailed guidance.
Why are carbide inserts so expensive?
The high cost is due to the materials used (like tungsten and cobalt) and the precision manufacturing processes involved.
超硬チップは再利用できますか?
Yes, carbide inserts can often be indexed (rotated) to use multiple cutting edges before they need to be replaced.
What are the common shapes of carbide inserts?
Common shapes include square, triangle, rhomboid, diamond, and V-shape, each suited for specific applications.
How do carbide inserts improve machining efficiency?
They provide precise, clean cuts, withstand high temperatures, and have longer tool life, reducing downtime and increasing productivity.
結論
Solid carbide inserts are a cornerstone of modern machining, offering unmatched durability, precision, and versatility. From their composition to their applications across various industries, understanding these tools can significantly impact your machining processes. With the right selection and application, carbide inserts can enhance efficiency, reduce costs, and improve product quality. So next time you’re gearing up for a project, remember the tiny tool that packs a powerful punch – the solid carbide insert.
