カテゴリー: ブログ

ミシン目ブレードとは何か、そしてどのように使用されるのか

A perforating blade is a tool designed to create small cuts, allowing you to tear or separate parts without damaging the remainder. The process of perforating is crucial for both crafts and industries due to its usefulness and precision. In the realm of crafts, it enables you to create intricate designs or tear-off sheets for scrapbooks. In industrial applications, it is essential for packaging, labels, and fabric production. Companies like Nanjing Metal, which boasts 18 years of experience, specialize in manufacturing custom blades tailored to various needs. If you require assistance, don’t hesitate to contact their sales engineers for expert advice. Key Takeaways Understanding the Meaning of “Perforated” Definition of Perforated Perforated materials have tiny, […]

ゴムスリッターブレードを選ぶ究極のガイド

Why Choosing the Right Rubber Slitter Blade Matters Improving Cutting Efficiency Picking the right rubber slitter blade makes cutting easier. Small changes in blade design can significantly improve performance. For example, the angle of the blade’s edge is very important. Studies show even tiny changes to this angle affect cutting force. Cutting speed also matters and can change how well the blade works. Tests show a good rubber slitter blade can cut 15 rubber blocks per minute. This speeds up production and reduces downtime. Advanced machines, like the Mazak Nexus Model 410 A, demonstrate how spindle speed and feed rate affect cutting speed. Better cutting efficiency means more work gets done and results stay consistent. […]

業界に合った最適なペレタイザーナイフの選び方

素材、精度、耐久性、コストを考慮して、あなたの業界に最適なペレタイザーナイフを見つけましょう。専門家のヒントで効率を向上させ、ダウンタイムを削減します。

あなたの機械に最適なペレタイザーナイフを選ぶための包括的なガイド

お使いの機械に最適なペレタイザーナイフを見つけましょう。素材、精度、耐久性が性能にどう影響し、ペレット品質を向上させるかをご覧ください。

ホットカットナイフ：よりスマートに、きれいに、速く、そしてコスト効率よく切る方法

問題解決 製造業者は、より速く、よりきれいに、そしてより無駄なく材料を切断しなければならないというプレッシャーに直面しています。従来の機械式ブレードでは、しばしば対応が困難です。刃先がほつれ、生産速度が低下し、高額な材料ロスが発生します。そこで登場するのが、よりスマートで、より正確、そして高効率な切断ソリューションであるホットカットナイフです。ホットカットナイフがなぜ産業に変革をもたらしているのか、そしてそれがあなたの業務にどのようなメリットをもたらすのか、見ていきましょう。1. ホットカットナイフを選ぶ理由 主なメリット 1.1 きれいに、精密な切断：ヒートシールエッジの威力 ホットカットナイフは、材料の種類に応じて通常200℃から600℃に加熱されたブレードを使用し、接触面を溶かして材料を切断します。この[…]

過酷な条件下で工業用ブレードの性能を向上させ、ダウンタイムを削減する方法

Industrial blade performance is critical in today’s high-pressure manufacturing environments. Whether you’re cutting abrasive materials, processing recycled plastics, or handling corrosive substances in food and chemical industries, your blades must be tough, reliable, and long-lasting. But in many facilities, poor blade performance leads to costly downtime, inconsistent output, and frequent replacements. This article explains how to improve industrial blade performance in harsh operating conditions. You’ll learn what damages blades, how to select better materials, and when to switch to custom knives to get more from your machines. Whether you’re in recycling, food processing, or packaging, the right strategies can help you cut smarter, not harder. Are Your Blades Failing Under […]

カスタム製造がブレードの未来である理由

Custom manufacturing is changing how industrial blades are made. It gives better accuracy and flexibility than old methods. Using new tech like robots and 3D printing, production is faster with fewer mistakes. For example, companies using robots saw a 35% rise in work speed and 70% fewer errors. These changes make work smoother and cut down waste a lot. The 3D printing market might grow to $57.1 billion by 2028. Custom manufacturing is growing quickly. It helps blades match exact needs while saving time and resources. Key Takeaways The Drawbacks of Traditional Blade Manufacturing Limited Customization Struggles to meet specific industry needs Old blade-making methods often fail to meet modern […]

ブレード形状が切断効率に与える影響 – よりスマートで高速な工業用切断のためのガイド

In industrial manufacturing, every cut counts. Whether you’re slicing paper, food, plastic, or metal, one factor plays a critical role in your success: blade geometry. Blade geometry — the shape, angle, thickness, and edge design of a knife or blade — has a direct impact on cutting efficiency, product quality, and operational costs. Yet, many factories still overlook it. Choosing the right blade geometry can increase cutting speed, reduce blade wear, and improve the precision of each cut. In this article, we explore how different aspects of blade geometry affect performance across industries and offer guidance on how to choose or customize the right knife for your process. 1. Key […]

性能とコストを最適化するための正しい工業用ブレード公差の選び方

Industrial blade tolerance plays a crucial role in determining the efficiency, durability, and cost-effectiveness of manufacturing processes. Choosing the wrong tolerance can lead to poor cutting performance, excessive machine wear, and increased operational costs. Studies suggest that improper blade tolerances can result in up to 30% higher maintenance costs due to misalignment and increased wear rates. At Nanjing Metal, we have 18 years of experience designing and manufacturing precision industrial blades. Our expertise allows us to offer custom industrial blades that balance blade tolerance standards with cost efficiency. In this article, we will explore the fundamentals of industrial blade tolerance, its impact on performance and manufacturing, and how to select […]

焼入れ vs. 表面硬化：工業用ブレードに最適な硬化方法の選び方

Industrial blades and knives play a critical role in manufacturing, metal processing, paper production, and many other industries. Their performance and longevity directly affect efficiency, maintenance costs, and overall production output. One of the key factors that determine blade durability is the industrial blade hardening process. Choosing the right hardening method can make a significant difference in blade wear resistance, cutting precision, and cost-effectiveness. The two most common hardening techniques are through hardening and surface hardening. Each offers distinct advantages and is suited for different applications. This article will provide an in-depth comparison of these two methods, helping businesses select the best hardening process for their industrial cutting blades. 1. […]