樹脂塞孔加工企業(yè)的商機(jī)洞察與策略建議

一、樹脂塞孔工藝的核心價值與市場需求

樹脂塞孔工藝通過樹脂填充內(nèi)層埋孔實(shí)現(xiàn)線路板立體化設(shè)計，顯著提升空間利用率，契合現(xiàn)代電子設(shè)備向高密度、輕量化發(fā)展的趨勢。其核心優(yōu)勢體現(xiàn)在：

1. 高頻高速信號傳輸：在5G通信、航空電子等高頻場景中，樹脂塞孔可減少信號損耗，提升傳輸穩(wěn)定性。

2. HDI板關(guān)鍵技術(shù)：作為高密度互連板的核心工藝，樹脂塞孔支持更細(xì)線路和更小孔徑，滿足智能手機(jī)、服務(wù)器等高端產(chǎn)品需求。

3. 厚銅板解決方案：在電源、新能源汽車等領(lǐng)域，樹脂塞孔可解決厚銅板散熱與信號隔離的矛盾，提升產(chǎn)品可靠性。

   

市場機(jī)遇：全球PCB產(chǎn)業(yè)向中國大陸轉(zhuǎn)移，2023年中國PCB產(chǎn)值占全球54%，其中高端HDI板、高頻板需求年增速超15%，為樹脂塞孔加工企業(yè)提供廣闊空間。

二、技術(shù)升級與成本控制的關(guān)鍵路徑

（一）工藝優(yōu)化方向

1. 真空塞孔技術(shù)突破：

   • 傳統(tǒng)絲印塞孔氣泡率高達(dá)8%-12%，真空塞孔可將氣泡率降至2%以下，提升產(chǎn)品良率。

   • 案例：某企業(yè)引入真空塞孔設(shè)備后，單線產(chǎn)能提升40%，客訴率下降60%。

   
   

2. 無溶劑樹脂應(yīng)用：

   • 溶劑型樹脂固化收縮率達(dá)3%-5%，易導(dǎo)致孔口凹陷；無溶劑樹脂收縮率可控制在0.5%以內(nèi)。

   • 成本對比：無溶劑樹脂單價高20%，但綜合良率提升可降低單位成本15%。

   
   

3. 智能研磨系統(tǒng)：

   • 采用CCD視覺檢測+自適應(yīng)磨板技術(shù)，將樹脂凹陷度控制在±0.05mm內(nèi)，滿足高端客戶要求。

   
   

（二）設(shè)備投資策略

1. 核心設(shè)備選型：

   • 真空塞孔機(jī)：優(yōu)先選擇日本網(wǎng)屏、德國LPKF等品牌，確保真空度≤-90kPa。

   • 陶瓷磨板機(jī)：選用帶自動補(bǔ)償功能的機(jī)型，如臺灣志圣設(shè)備，提升研磨均勻性。

   
   

2. 產(chǎn)線自動化升級：

   • 引入AGV物流系統(tǒng)，將上下料時間從15分鐘/批縮短至3分鐘/批。

   • 部署MES系統(tǒng)，實(shí)現(xiàn)工藝參數(shù)實(shí)時監(jiān)控與追溯，減少人為誤差。

   
   

三、質(zhì)量管控與良率提升方案

（一）常見缺陷分析

（二）過程控制要點(diǎn)

1. 來料檢驗(yàn)：

   • 銅箔表面粗糙度Ra≤0.5μm，孔壁粗糙度Ra≤1.0μm。

   • 樹脂膠粒含水率≤0.2%，存儲環(huán)境濕度≤50%RH。

   
   

2. 關(guān)鍵參數(shù)監(jiān)控：

   • 塞孔壓力：0.4-0.6MPa（傳統(tǒng)絲?。?，0.2-0.3MPa（真空塞孔）。

   • 固化溫度：150±5℃（無溶劑樹脂），180±5℃（溶劑型樹脂）。

   
   

3. 檢測標(biāo)準(zhǔn)升級：

   • 采用X-Ray檢測塞孔飽滿度，要求孔內(nèi)樹脂填充率≥98%。

   • 切片分析樹脂凹陷度≤0.075mm，符合IPC-6012 Class 3標(biāo)準(zhǔn)。

   
   

四、市場拓展與競爭策略

（一）目標(biāo)客戶定位

1. 高端PCB制造商：

   • 優(yōu)先服務(wù)華為、中興等通信設(shè)備廠商，以及比亞迪、寧德時代等新能源汽車客戶。

   • 重點(diǎn)突破服務(wù)器、基站用高頻高速板市場，這類產(chǎn)品樹脂塞孔滲透率已超70%。

   
   

2. 新興領(lǐng)域布局：

   • 汽車電子：ADAS域控制器、BMS系統(tǒng)對HDI板需求激增，2025年市場規(guī)模將達(dá)120億美元。

   • 衛(wèi)星通信：低軌衛(wèi)星星座建設(shè)帶動高頻板需求，樹脂塞孔工藝可降低信號損耗3dB以上。

   
   

（二）差異化競爭路徑

1. 技術(shù)認(rèn)證壁壘：

   • 通過ISO 9001、IATF 16949（汽車行業(yè)）等體系認(rèn)證，獲取進(jìn)入高端供應(yīng)鏈的敲門磚。

   • 參與IPC標(biāo)準(zhǔn)制定，提升行業(yè)話語權(quán)。

   
   

2. 服務(wù)模式創(chuàng)新：

   • 提供“工藝開發(fā)+量產(chǎn)代工”一站式服務(wù)，縮短客戶產(chǎn)品上市周期。

   • 建立快速響應(yīng)機(jī)制，承諾48小時內(nèi)解決客訴問題。

   
   

3. 區(qū)域市場深耕：

   • 在珠三角、長三角設(shè)立技術(shù)服務(wù)中心，實(shí)現(xiàn)2小時現(xiàn)場支持。

   • 針對東南亞市場，通過越南、泰國等地合作伙伴建立本地化供應(yīng)能力。

   
   

五、行業(yè)趨勢與長期發(fā)展建議

1. 材料創(chuàng)新方向：

   • 開發(fā)低CTE（熱膨脹系數(shù)）樹脂，匹配5G基材要求（CTE≤14ppm/℃）。

   • 研發(fā)導(dǎo)電性樹脂，探索在埋容埋阻領(lǐng)域的應(yīng)用。

   
   

2. 工藝融合趨勢：

   • 樹脂塞孔與MSAP（改良型半加成法）工藝結(jié)合，實(shí)現(xiàn)0.3mm以下極細(xì)線路制作。

   • 探索樹脂塞孔在IC載板中的應(yīng)用，突破ABF材料壟斷。

   
   

3. 可持續(xù)發(fā)展路徑：

   • 引入水性樹脂體系，將VOCs排放降低80%以上。

   • 開發(fā)樹脂回收再生技術(shù)，實(shí)現(xiàn)原材料循環(huán)利用。

   
   

結(jié)語：樹脂塞孔加工企業(yè)需以技術(shù)驅(qū)動為核心，通過工藝優(yōu)化、設(shè)備升級和質(zhì)量控制構(gòu)建競爭壁壘，同時緊抓5G、新能源汽車等新興領(lǐng)域機(jī)遇，實(shí)現(xiàn)從代工制造向技術(shù)解決方案提供商的轉(zhuǎn)型。預(yù)計到2025年，中國高端樹脂塞孔加工市場規(guī)模將突破50億元，頭部企業(yè)有望通過規(guī)模化效應(yīng)和技術(shù)領(lǐng)先占據(jù)30%以上份額。

樹脂塞孔的準(zhǔn)備工作：1、網(wǎng)版：漏板貼在網(wǎng)版上面要有均的張力，張力太大壓不下去會影響塞孔的效果，壓力太小則會粘網(wǎng)而影響剝離的效果，在拾網(wǎng)時會把油墨從孔口帶出造成孔口凹陷，研磨后就有凹坑。2、漏板：根據(jù)材料的不同，常用的有不銹鋼、鋁片、直接、環(huán)板等，其要求主要是要有好的透墨性，足夠的彈性容易控制漲縮并不易變形(容易變形則會影響對位)。另外就是選擇合適的開窗尺寸，開窗太大則分散油墨的穿透性，印刷時油會向邊上擴(kuò)散而影響塞孔效果開窗太小則會加大對位難度，對絲印機(jī)對位精度和待寒孔板子鉆孔精度一致性的要求就高。相較于傳統(tǒng)的方法，利用樹脂塞孔法生產(chǎn)出來的產(chǎn)品更具有非常優(yōu)良的質(zhì)量。精密PCB電路板樹脂塞孔研磨方法

樹脂塞孔工藝的定義：樹脂塞孔工藝是指使用樹脂將內(nèi)層的埋孔塞住，然后再進(jìn)行壓合，普遍應(yīng)用于高頻板、HDI板中；分為傳統(tǒng)絲印樹脂塞孔和真空樹脂塞孔。一般產(chǎn)品制作工藝為傳統(tǒng)絲印樹脂塞孔，也是業(yè)內(nèi)應(yīng)用較為普遍的工藝方法。樹脂塞孔工藝的流程：前工序--鉆樹脂孔--電鍍--樹脂塞孔--陶瓷磨板--鉆通孔--電鍍--后工序，樹脂塞孔工藝的作用：樹脂塞孔的生產(chǎn)工藝使線路板生產(chǎn)工藝立體化，有效的節(jié)約了水平空間，適應(yīng)了現(xiàn)代線路板高密度，互聯(lián)化的發(fā)展趨勢。深圳線路板樹脂塞孔加工費(fèi)用樹脂塞孔在一些層數(shù)高、板子厚度較大的產(chǎn)品上面?zhèn)涫芮嗖A。

樹脂塞孔的流程步驟：1、鉆孔，在線路板上鉆埋孔、通孔及定位孔；2、去污沉銅，先對線路板進(jìn)行去污處理，再將經(jīng)去污處理后的線路板放入沉銅藥水內(nèi)，對線路板表面及埋孔、通孔、定位孔的孔壁進(jìn)行初步沉銅；3、PTH抗氧化處理，在孔壁的銅層的表面生成一層有機(jī)抗氧化膜，隔絕銅層與氧的接觸；4、塞膠粒，在定位孔內(nèi)塞入膠粒，避免在電鍍時定位孔內(nèi)上銅；5、板面電鍍，將塞好膠粒后的線路板放入化學(xué)藥水中，通過整板電鍍得到設(shè)定厚度的導(dǎo)電銅層，在電鍍后的銅層上再鍍一錫層，以保護(hù)電鍍的銅層不被后序制程所破壞。

PCB無論采用樹脂塞孔或者油墨塞孔，都有可能使孔存儲器有氣泡，即使塞孔之前通過長時間的放置，使用真空脫泡機(jī)，也無法使塞孔操作在真空的條件下進(jìn)行。在網(wǎng)印時，刮刀來回運(yùn)動必然會使氣泡混在樹脂里面。當(dāng)然粘度的高低對氣泡的消除會有影響。在網(wǎng)印時，刮刀來回運(yùn)動必然會使氣泡混在樹脂里面。當(dāng)然粘度的高低對氣泡的消除會有影響。但決不能添加稀釋劑來解決之，因?yàn)閾]發(fā)物的存在會導(dǎo)致固話后樹脂收縮而凹陷。因此，在選擇塞孔條件時，要進(jìn)行分析，以選擇無溶劑型樹脂更為合適。什么是PCB加工中樹脂塞孔工藝？

樹脂塞孔有哪些預(yù)防改善措施？1、控制內(nèi)層HDI塞孔的飽滿度是預(yù)防爆板的必要條件；如果選用在線路以后進(jìn)行塞孔，則要控制好塞孔到壓合之間的時間和板面清潔度。2、樹脂的突起控制需要控制好樹脂的打磨和壓平，橫豎各磨板一遍，確保將板面樹脂磨干凈，局部沒磨干凈的可用手工打磨將樹脂修理干凈；磨板后樹脂凹陷不能大于0.075mm毫米電鍍要求：根據(jù)客戶銅厚要求，進(jìn)行電鍍。電鍍后再進(jìn)行切片確認(rèn)樹脂塞孔凹陷度。樹脂塞孔的技術(shù)經(jīng)過多年的發(fā)展，并不斷地在一些高級產(chǎn)品上發(fā)揮其不可或缺的作用。尤其是在盲埋孔、HDI、厚銅等產(chǎn)品上已經(jīng)在普遍應(yīng)用，這些產(chǎn)品涉及到通訊、航空、電源、網(wǎng)絡(luò)等等行業(yè)。樹脂塞孔與綠油塞孔的區(qū)別是什么？深圳市電路板樹脂塞孔研磨設(shè)備

樹脂塞孔的優(yōu)點(diǎn)是什么？精密PCB電路板樹脂塞孔研磨方法

樹脂塞孔常見的質(zhì)量問題及其改進(jìn)方法：一，常見的問題：1、孔口氣泡；2、塞孔不飽滿；3、樹脂與銅分層；二、預(yù)防改善措施：1、選用合適的塞孔油墨，控制油墨的存放條件和保質(zhì)期。2、規(guī)范的檢查流程，避免孔口有空洞出現(xiàn)。依靠過硬的塞孔技術(shù)和良好的絲印條件來提高塞孔的良率。3、選擇合適的樹脂，尤其是材料Tg和膨脹系數(shù)的選擇，合適的生產(chǎn)流程以及除膠參數(shù)，方能避免焊盤與樹脂受熱后脫離的問題。4、對于樹脂與銅分層的問題，孔表面的銅厚厚度大于15um微米時，此類樹脂與銅分層的問題可以得到極大的改善。精密PCB電路板樹脂塞孔研磨方法

http://m.whfnz.com蘇州富加林自動化是一家有著先進(jìn)的發(fā)展理念，先進(jìn)的管理經(jīng)驗(yàn)，在發(fā)展過程中不斷完善自己，要求自己，不斷創(chuàng)新，時刻準(zhǔn)備著迎接更多挑戰(zhàn)的活力公司，在廣東省等地區(qū)的機(jī)械及行業(yè)設(shè)備中匯聚了大量的人脈以及客戶資源，在業(yè)界也收獲了很多良好的評價，這些都源自于自身的努力和大家共同進(jìn)步的結(jié)果，這些評價對我們而言是**的前進(jìn)動力，也促使我們在以后的道路上保持奮發(fā)圖強(qiáng)、一往無前的進(jìn)取創(chuàng)新精神，努力把公司發(fā)展戰(zhàn)略推向一個新高度，在全體員工共同努力之下，全力拼搏將共同珠海市弘圖電子供應(yīng)和您一起攜手走向更好的未來，創(chuàng)造更有價值的產(chǎn)品，我們將以更好的狀態(tài)，更認(rèn)真的態(tài)度，更飽滿的精力去創(chuàng)造，去拼搏，去努力，讓我們一起更好更快的成長！

Insight into Business Opportunities and Strategic Suggestions for Resin Plug Hole Processing Enterprises

1、 The core value and market demand of resin plug hole technology

The resin plug hole process achieves three-dimensional design of circuit boards by filling the inner buried holes with resin, significantly improving space utilization and aligning with the trend of modern electronic devices towards high-density and lightweight development. Its core advantages are reflected in:

High frequency and high-speed signal transmission: In high-frequency scenarios such as 5G communication and aviation electronics, resin plug holes can reduce signal loss and improve transmission stability.

HDI board key technology: As the core process of high-density interconnect boards, resin plug holes support finer lines and smaller apertures, meeting the needs of high-end products such as smartphones and servers.

Thick copper plate solution: In the fields of power supply, new energy vehicles, etc., resin plug holes can solve the contradiction between thick copper plate heat dissipation and signal isolation, and improve product reliability.

twenty million two hundred and fifty thousand eight hundred and fifteen

Market opportunity: The global PCB industry is shifting to the Chinese Mainland. In 2023, China's PCB output value will account for 54% of the world's total, of which the annual growth rate of high-end HDI boards and high-frequency boards will exceed 15%, providing broad space for resin plug hole processing enterprises.

2、 The critical path of technological upgrading and cost control

（1） Process optimization direction

Breakthrough in vacuum plug hole technology:

The bubble rate of traditional silk screen plug holes can reach 8% -12%, while vacuum plug holes can reduce the bubble rate to below 2%, improving product yield.

Case: After a certain enterprise introduced vacuum plug hole equipment, the single line production capacity increased by 40%, and the customer complaint rate decreased by 60%.

Application of solvent-free resin:

The curing shrinkage rate of solvent based resin can reach 3% -5%, which can easily lead to concave pores; The shrinkage rate of solvent-free resin can be controlled within 0.5%.

Cost comparison: The unit price of solvent-free resin is 20% higher, but the overall yield improvement can reduce the unit cost by 15%.

Intelligent grinding system:

Using CCD visual inspection and adaptive grinding technology, the resin concavity is controlled within ± 0.05mm to meet the requirements of high-end customers.

（2） Equipment investment strategy

Core equipment selection:

Vacuum plug hole machine: Priority should be given to Japanese screen, German LPKF and other brands to ensure a vacuum degree of ≤ -90kPa.

Ceramic grinding machine: Choose models with automatic compensation function, such as Taiwan Zhisheng equipment, to improve grinding uniformity.

Production line automation upgrade:

Introduce AGV logistics system to shorten the loading and unloading time from 15 minutes per batch to 3 minutes per batch.

Deploy MES system to achieve real-time monitoring and traceability of process parameters, reducing human errors.

3、 Quality control and yield improvement plan

（1） Common Defect Analysis

Defect Type Cause Solution

The viscosity of the bubble resin at the orifice is too high/the scraper speed is too fast. Adjust the resin viscosity to 800-1200dPa · s, and control the scraper speed at 50-80mm/s

Insufficient tension of the screen due to incomplete plug holes/excessive opening of the leaky plate. The screen tension is maintained at 22-24N/cm, and the size of the leaky plate opening is 0.1-0.15mm larger than the aperture

Improper parameters for resin and copper delamination/insufficient copper thickness using plasma delamination, resulting in a 90% reduction in delamination rate when copper thickness ≥ 15 μ m

（2） Key points of process control

Incoming inspection:

Copper foil surface roughness Ra ≤ 0.5 μ m, hole wall roughness Ra ≤ 1.0 μ m.

The moisture content of resin granules is ≤ 0.2%, and the storage environment humidity is ≤ 50% RH.

Key parameter monitoring:

Plug hole pressure: 0.4-0.6MPa (traditional silk screen printing), 0.2-0.3MPa (vacuum plug hole).

Curing temperature: 150 ± 5 ℃ (solvent-free resin), 180 ± 5 ℃ (solvent based resin).

Upgrade of testing standards:

Use X-ray to detect the fullness of the plug hole, requiring a resin filling rate of ≥ 98% inside the hole.

Slicing analysis shows that the resin concavity is ≤ 0.075mm, which meets the IPC-6012 Class 3 standard.

4、 Market Expansion and Competitive Strategy

（1） Target customer positioning

High end PCB manufacturers:

Prioritize serving communication equipment manufacturers such as Huawei and ZTE, as well as new energy vehicle customers such as BYD and CATL.

Key breakthroughs have been made in the high-frequency high-speed board market for servers and base stations, with resin plug penetration rates exceeding 70% for these products.

Layout in emerging fields:

Automotive electronics: ADAS domain controllers and BMS systems have seen a surge in demand for HDI boards, with a market size expected to reach $12 billion by 2025.

Satellite communication: The construction of low orbit satellite constellations drives the demand for high-frequency boards, and resin plug hole technology can reduce signal loss by more than 3dB.

（2） Differentiated competition path

Technical certification barriers:

Obtaining certifications such as ISO 9001 and IATF 16949 (for the automotive industry) provides the key to entering the high-end supply chain.

Participate in the development of IPC standards and enhance industry discourse power.

Service model innovation:

Provide one-stop service of "process development+mass production outsourcing" to shorten the customer's product launch cycle.

Establish a rapid response mechanism and promise to resolve customer complaints within 48 hours.

Deep cultivation of regional markets:

Establish technical service centers in the Pearl River Delta and Yangtze River Delta regions to provide 2-hour on-site support.

For the Southeast Asian market, establish localized supply capabilities through partners in Vietnam, Thailand, and other places.

5、 Industry Trends and Long term Development Suggestions

Material innovation direction:

Develop low CTE (coefficient of thermal expansion) resin to meet the requirements of 5G substrate (CTE ≤ 14ppm/℃).

Develop conductive resins and explore their applications in the field of buried capacitance and buried resistance.

Trend of process integration:

The combination of resin plug holes and MSAP (Modified Semi Additive Process) technology enables the production of extremely fine lines below 0.3mm.

Explore the application of resin plug holes in IC carrier boards and break through the monopoly of ABF materials.

Sustainable development path:

Introducing a water-based resin system can reduce VOCs emissions by over 80%.

Develop resin recycling and regeneration technology to achieve the recycling of raw materials.

Conclusion: Resin plug hole processing enterprises need to take technology as the core, build competitive barriers through process optimization, equipment upgrades, and quality control, and seize opportunities in emerging fields such as 5G and new energy vehicles to achieve the transformation from OEM manufacturing to technology solution providers. It is expected that by 2025, the market size of China's high-end resin plug hole processing will exceed 5 billion yuan, and top enterprises are expected to occupy more than 30% of the market share through economies of scale and technological leadership.

Preparation work for resin plug holes: 1. Screen printing: The leakage plate should be evenly tensioned when attached to the screen printing. If the tension is too high and cannot be pressed down, it will affect the effectiveness of the plug holes. If the pressure is too low, it will stick to the screen and affect the peeling effect. When picking up the screen, ink will be carried out from the hole opening, causing the hole opening to be concave. After grinding, there will be pits. 2. Leakage plate: Depending on the material, commonly used materials include stainless steel, aluminum sheet, direct, ring plate, etc. The main requirements are good ink permeability, sufficient elasticity, easy control of expansion and contraction, and not easy to deform (easy deformation will affect alignment). In addition, it is important to choose the appropriate window size. If the window size is too large, it will disperse the ink penetration, and during printing, the oil will spread upwards, affecting the hole plugging effect. If the window size is too small, it will increase the difficulty of alignment, and the requirements for the alignment accuracy of the screen printing machine and the consistency of the drilling accuracy of the cold hole board are high. Compared to traditional methods, products produced using resin plug hole method have superior quality. Precision PCB circuit board resin plug hole grinding method

The definition of resin plugging process: Resin plugging process refers to the use of resin to plug the buried holes in the inner layer, and then press them together. It is widely used in high-frequency boards and HDI boards; Divided into traditional silk screen resin plug holes and vacuum resin plug holes. The general product manufacturing process is the traditional silk screen resin plug hole, which is also a widely used process in the industry. The process of resin plug hole technology: pre process - drilling resin holes - electroplating - resin plug holes - ceramic grinding plate - drilling through holes - electroplating - post process. The role of resin plug hole technology: The production process of resin plug holes makes the production process of circuit boards three-dimensional, effectively saves horizontal space, and adapts to the development trend of high-density and interconnected modern circuit boards. The processing cost of resin plug holes for Shenzhen circuit boards. Resin plug holes are highly favored on products with high layers and large board thickness.

The process steps of resin plug hole: 1. Drilling, drilling buried holes, through holes, and positioning holes on the circuit board; 2. To remove copper deposits, first clean the circuit board, and then place the cleaned circuit board into a copper plating solution to preliminarily deposit copper on the surface of the circuit board and the walls of buried holes, through holes, and positioning holes; 3. PTH antioxidant treatment generates an organic anti-oxidation film on the surface of the copper layer on the pore wall, isolating the copper layer from contact with oxygen; 4. Insert rubber particles into the positioning holes to avoid copper deposition during electroplating; 5. Plate electroplating involves placing the circuit board with adhesive particles in a chemical solution and electroplating the entire board to obtain a conductive copper layer of a set thickness. A tin layer is then deposited on top of the electroplated copper layer to protect it from damage by subsequent processes.

Regardless of whether resin plug holes or ink plug holes are used in PCBs, there may be bubbles in the hole storage. Even if the plug holes are left for a long time and a vacuum defoamer is used, the plug hole operation cannot be carried out under vacuum conditions. During screen printing, the back and forth movement of the scraper will inevitably mix bubbles in the resin. Of course, the viscosity level will have an impact on the elimination of bubbles. During screen printing, the back and forth movement of the scraper will inevitably mix bubbles in the resin. Of course, the viscosity level will have an impact on the elimination of bubbles. But it must not be solved by adding diluents, as the presence of volatiles can cause resin shrinkage and depression after fixation. Therefore, when selecting plug hole conditions, analysis should be conducted to choose solvent-free resins that are more suitable. What is resin plug hole technology in PCB processing?

What are the preventive and improvement measures for resin plug holes? 1. Controlling the fullness of the inner HDI plug hole is a necessary condition for preventing board bursting; If plug holes are selected after the circuit, the time between plug holes and compression and the cleanliness of the board surface should be controlled. 2. The control of resin protrusion requires controlling the grinding and flattening of the resin, grinding the board horizontally and vertically once to ensure that the resin on the board surface is completely polished. For areas that are not completely polished, manual grinding can be used to repair the resin; After grinding, the resin indentation cannot exceed 0.075mm. Electroplating requirements: Electroplating should be carried out according to the customer's copper thickness requirements. After electroplating, slice to confirm the concavity of the resin plug hole. The technology of resin plug hole has been developed for many years and continues to play an indispensable role in some advanced products. Especially in blind buried holes HDI、 Thick copper and other products have been widely used in industries such as communication, aviation, power supply, and networking. What is the difference between resin plug holes and green oil plug holes? Shenzhen circuit board resin plug hole grinding equipment

What are the advantages of resin plug holes? Precision PCB circuit board resin plug hole grinding method

Common quality problems and improvement methods of resin plug holes: 1. Common problems: 1. Bubbles at the hole opening; 2. The plug hole is not full; 3. Resin and copper layering; 2、 Preventive and improvement measures: 1. Select appropriate plug hole ink, control the storage conditions and shelf life of the ink. 2. Standardized inspection procedures to avoid the occurrence of holes in the openings. Relying on excellent plug hole technology and good screen printing conditions to improve the yield of plug holes. 3. Choosing the appropriate resin, especially the choice of material Tg and expansion coefficient, appropriate production process, and adhesive removal parameters, can avoid the problem of solder pads and resin detachment after heating. 4. For the problem of resin and copper delamination, when the copper thickness on the pore surface is greater than 15um microns, this type of resin and copper delamination problem can be greatly improved. Precision PCB circuit board resin plug hole grinding method

http://m.whfnz.com Suzhou Fujialin Automation is a dynamic company with advanced development concepts and management experience, constantly improving ourselves, demanding ourselves, innovating, and always ready to face more challenges in the process of development. It has gathered a large number of contacts and customer resources in the machinery and industry equipment in Guangdong Province and other regions, and has also received many good evaluations in the industry. These evaluations are the best driving force for us to move forward, and they also encourage us to maintain the spirit of striving for excellence and innovation in the future. We strive to push the company's development strategy to a new height. With the joint efforts of all employees, we will work hard to achieve common goals with Hongtu Electronics in Zhuhai. Supply and join hands with you to move towards a better future, To create more valuable products, we will work with a better state, a more serious attitude, and more full energy to create, strive, and work hard. Let's grow better and faster together!