مروری بر مورد کاربرد
ماشینآلات استخراج زغالسنگ در محیطهای بسیار سخت و پرچالش، با چرخههای کاری طولانی و مداوم و شرایط بار سنگین فعالیت میکنند. اجزای حیاتی مانند متههای برشی، نوار نقالهها، چرخدندهها و شفتها بهشدت مستعد سایش و خرابی هستند، در حالی که سیلندرهای پشتیبانی هیدرولیک و میلپیستونها اغلب دچار خوردگی میشوند. این مشکلات بهطور قابلتوجهی عمر مفید تجهیزات را کوتاه کرده و به توقفهای پرهزینه منجر میشوند. از آنجا که تجهیزات استخراج زغالسنگ معمولاً بزرگ، گرانقیمت و دشوار برای جداسازی هستند، حجم کاری نگهداری بالا است و هرگونه خرابی قطعه ناشی از سایش یا خوردگی میتواند به زیانهای اقتصادی قابلتوجهی منجر شود.
روش تعمیر سنتی — آبکاری الکتریکی
قدرت چسبندگی پایین؛ پوششها بهراحتی جدا میشوند و عمر مفید کوتاهی دارند.
آلودگی شدید محیط زیست و خطرات ایمنی
به تدریج در کاربردهای صنعتی مدرن کنار گذاشته شد
پوششدهی لیزری — بازسازی سطحی کمهزینه و با بازده بالا
پوششدهی لیزری امکان تقویت سطح و بازتولید قطعات جدید و فرسوده را فراهم میکند. اعمال پوششدهی لیزری بر سیلندرهای هیدرولیک، ستونهای نگهدارنده و سایر قطعات کلیدی بهطور قابلتوجهی مقاومت در برابر سایش و خوردگی را افزایش داده و عملاً عمر مفید قطعه را طولانیتر میکند.
فناوری پوششدهی لیزری با سرعت بالا شرکت Chengdu Greenstone-Tech سرعت پردازش بالاتری و سطوح پوششدهی صافتر و یکنواختتری را در مقایسه با پوششدهی لیزری سنتی ارائه میدهد. بیشتر قطعات تنها به پرداخت سبک نیاز دارند قبل از اینکه به سرویس بازگردند، که زمان و هزینه ماشینکاری را کاهش میدهد. پوششدهی لیزری با سرعت بالا به فناوری پیشرو در بازسازی سطحی لیزری برای کاربردهای تجهیزات استخراج زغالسنگ تبدیل شده است.
Scene 1: Laser Cladding for Hydraulic Support Cylinder Inner Walls
The inner cylinder walls of hydraulic support columns in coal mining operations are prone to corrosion and pitting due to substandard emulsions or prolonged exposure after being lifted from the mine. The commonly used repair method is arc copper cladding, which provides thick, corrosion-resistant coatings but involves high heat input and elevated costs.
Inner-wall laser cladding offers an effective alternative and expansion to traditional arc copper deposition, especially for small-diameter components. Laser cladding allows precise selection and adjustment of alloy powders according to service conditions, enabling rapid fabrication of high-performance corrosion-resistant coatings.
Greenstone’s internal laser cladding heads feature high integration, excellent stability, mature process control, and strong adaptability. The resulting inner-wall cladding surface is smooth, uniform, and defect-free, significantly reducing subsequent machining requirements while minimizing thermal deformation of the component. This ensures long-term durability and enhanced performance for hydraulic support cylinders operating in harsh underground mining environments.
Scene 2: Laser Cladding for Hydraulic Support Columns
Hydraulic support columns are critical components in coal mining equipment and operate for long periods in acidic and alkaline corrosive environments. Their surfaces are continuously subjected to corrosion, wear, and impact loads. Traditional remanufacturing techniques, primarily electroplating, provide short service life, limited repair cycles, and cause environmental pollution.
Laser cladding offers a superior alternative, with strong metallurgical bonding between the coating and substrate and a dense microstructure. Extensive industrial applications show that laser-cladded support columns deliver significantly improved performance and durability compared with electroplated columns. Using a high-energy laser beam as the heat source, laser cladding melts wear-resistant and anti-corrosion alloy powders together with the substrate surface, forming a robust protective layer that dramatically extends the service life of hydraulic supports.
Compared with electroplating, laser cladding provides exceptional technical advantages, supports green and sustainable manufacturing, and delivers substantial economic and operational benefits for coal mining enterprises.
Scene 3: Laser Cladding for Cutting Picks
Cutting picks are critical components in coal mining and tunneling machines, responsible for coal breaking and fragmentation. Their performance directly affects machine productivity, power consumption, operational stability, and the service life of associated components. During operation, cutting picks are subjected to high cyclic compressive stress, shear stress, and impact loads. Typical failure modes include tip detachment, chipping, wear of the pick tip and body, and, under severe conditions, body fracture. Therefore, efficient repair and reinforcement of worn picks is a key concern for equipment manufacturers and mining operators.
Applying فناوری آلیاژکاری لیزری to cutting pick refurbishment and remanufacturing significantly increases surface hardness and wear resistance, extending service life and reducing replacement frequency. Greenstone has successfully implemented high-performance laser cladding on cutting picks. A single cladding layer typically reaches 1–3 mm thickness با hardness up to HRC 65, free of cracks and porosity defects. The resulting wear-resistant coating dramatically reduces wear and breakage, lowers pick consumption, and minimizes spark generation during cutting, improving safety and boosting equipment availability and mining machine uptime.
مزایای کلیدی
Substantially enhanced wear resistance for cutting picks and pick holders, longer service life, reduced operating costs
Dense, uniform cladding microstructure with controlled thickness and coverage; minimal micro-defects
Strong metallurgical bonding with controlled dilution rate for superior durability
Rapid cooling rate, minimal heat-affected zone, and extremely low thermal deformation
This advanced laser cladding solution provides a robust and sustainable method to upgrade cutting tools for modern coal mining operations.
Scene 4: Laser Cladding for Gears and Shaft Components
Coal mining machinery operates under heavy loads, high rotational speeds, and prolonged high-temperature conditions. As a result, gears, shafts, and other transmission components are highly susceptible to wear, corrosion, and fatigue-related failures. When these critical parts fail, whether through factory repair or complete replacement, mining operations incur substantial downtime and economic losses.
Laser cladding provides an efficient and cost-effective solution for restoring and strengthening worn gears and shafts. By selecting specialized alloy powders based on material composition, hardness, and performance requirements, laser cladding restores original dimensions and mechanical properties while significantly enhancing wear and corrosion resistance. This technology not only extends component service life but also delivers strong economic benefits by reducing replacement frequency, maintenance time, and overall operating costs in coal mining applications.
