焊接技術的進步

人工智慧、機器學習和機器人的融合正在推動自動化、數位化和永續性的趨勢

焊接是一種多功能且重要的製造程序，利用熱量將相似或不同的金屬連接在一起。與使用較低溫度將金屬熔合在一起的硬焊不同，焊接技術在非常高的溫度下工作。焊接是所有行業中使用最多的加工技術。全自動焊接解決方案正在整個製造業中迅速採用，且技術高度成熟。

談到自動化，有半自動和全自動焊接解決方案。半自動焊接解決方案主要用於生產有限數量的產品，並需要操作員手動將零件放置到夾具上。全自動焊接解決方案可以透過程式設計來執行重複的焊接任務。

該行業正在開發新的焊接解決方案，以盡量減少對環境的負面影響並節省能源和自然資源。各行業的製造商正在採用高度自動化、基於人工智慧的協作機器人焊接解決方案來改進製造流程。該報告涵蓋了提高製造流程效率和最佳化工廠的焊接技術趨勢和解決方案，對製造業中廣泛採用的焊接技術進行了深入分析。

本研究涵蓋以下主題：

• 技術展望與趨勢
• 科技的魅力
• 技術採用因素：促進因素與挑戰
• 焊接符號和缺陷符號
• 主要產業參與企業趨勢及發展策略
• 成長機會與未來藍圖

目錄

戰略衝動

• 為什麼成長如此困難？策略要務 8 (TM)：阻礙成長的因素
• The Strategic Imperative 8（TM）
• 戰略要務對焊接產業的影響
• 成長機會推動Growth Pipeline Engine（TM）
• 調查方法

成長機會分析

• 分析範圍
• 各行業最常使用的焊接技術
• 焊接技術促進因素
• 焊接技術挑戰

技術吸引力儀表板

• 技術吸引力儀表板

焊接技術的歷史

• 焊接技術的起源
• 焊接對工業的影響

技術概覽

• 技術重點 GMAW/MIG
• 技術重點 GTAW/TIG
• 技術重點 焊條電弧焊
• 技術重點 FCAW
• 技術重點 EBW
• 技術重點 AHW

焊接符號和定義

• 焊接符號和定義
• 焊接業最常使用的手套

焊接缺陷的符號及說明

• 焊接缺陷：符號和描述

最近的技術進步

• 技術進步及其對焊接產業的影響
• 主要參與者和最新創新
• 新型雷射焊接技術
• 用於金屬加工的多工序焊接機
• 基於軟體的機器人焊接機提高了製造效率
• 焊接排煙器
• 高電壓組裝超音波焊接機
• 纖維增強複合材料雙脈衝超音波焊接
• 用於電阻焊接和雷射焊接的人工智慧
• 使用AI的量產焊接工藝
• 異種材料連接新技術

資金籌措和近期工業活動

• 近期資金籌措活動
• 最近的工業活動

成長機會宇宙

• 成長機會1：自動化與數位化
• 成長機會2：勞動力短缺與新的培訓方式
• 成長機會3：提高安全性和永續性

未來藍圖

• 焊接產業藍圖

下一步

• 下一步
• 為什麼是霜凍，為什麼是現在？
• 免責聲明

Convergence between Artificial Intelligence, Machine Learning, and Robots Drive Trends toward Automation, Digitization, and Sustainability

Welding is a versatile and essential fabrication process that uses heat to join metals together, either similar or dissimilar metals. Unlike brazing and soldering that use a lower temperature to metal fusion, welding technologies operate at very high temperatures. Welding is the most-used fabrication technique across all industry verticals. With fully automated welding solutions witnessing radical adoption across the manufacturing industry, the technology maturity level is very high.

With respect to automation, there are semi-automated and fully automated welding solutions. Semi-automated welding solutions are used predominantly for manufacturing a limited volume of products and require an operator to manually load the parts onto the fixture. Fully automated welding solutions can be programmed to perform repetitive welding work.

The industry is developing new welding solutions to minimize negative environmental impacts and conserve energy and natural resources. Manufacturers in various industries are adopting highly automated, AI-based cobot welding solutions to improve manufacturing processes. This report covers the welding technologies/trends and solutions that improve manufacturing processes' efficiency and optimize plants; it provides an in-depth analysis of the welding technologies seeing high adoption in the manufacturing industry.

The study covers the following topics:

• Technology landscape and trends

• Technology attractiveness

• Technology adoption factors: drivers and challenges

• Welding symbols and defect symbols

• Trends and major industry participants' development strategies

• Growth opportunities and future roadmap

Table of Contents

Strategic Imperatives

• Why Is It Increasingly Difficult To Grow ?The Strategic Imperative 8™: Factors Creating Pressure On Growth
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on the Welding Industry
• Growth Opportunities Fuel The Growth Pipeline Engine™
• Research Methodology

Growth Opportunity Analysis

• Scope of Analysis
• Most Commonly Used Welding Technologies across Industries
• Welding Technology Drivers
• Welding Technology Challenges

Technology Attractiveness Dashboard

• Technology Attractiveness Dashboard

History of Welding Technology

• The Origins of Welding Technology
• Impact of Welding across Industries

Technology Overview

• Technology Focus: GMAW/MIG
• Technology Focus: GTAW/TIG
• Technology Focus: SMAW
• Technology Focus: FCAW
• Technology Focus: EBW
• Technology Focus: AHW

Welding Symbols and Definitions

• Welding Symbols and Definitions
• Most Commonly Used Gloves in the Welding Industry

Welding Defect Symbols and Descriptions

• Welding Defects-Symbols and Descriptions

Recent Technology Advancements

• Technology Advancements and Impacts on Welding Industry
• Key Players and Recent Innovations
• New Welding Laser Technology
• Multi-process Welding Machine for Metal Fabrication
• Software-based Robot Welder to Enhance Manufacturing Efficiency
• Welding Fume Extraction Machine
• Ultrasonic Welding Machine for High-voltage Assemblie
• Double-pulse Ultrasonic Welding of Fiber-reinforced Composites
• AI for Resistance and Laser Welding
• AI-based Welding Process for High-volume Production
• New Technique for Joining Dissimilar Materials

Funding and Recent Industry Activities

• Recent Funding Activities
• Recent Industry Activities

Growth Opportunity Universe

• Growth Opportunity 1: Automation and Digitalization
• Growth Opportunity 2: Labor Shortages and New Training Methods
• Growth Opportunity 3: Improving Safety and Sustainability

Future Roadmap

• Welding Industry Roadmap

Next Steps

• Your Next Steps
• Why Frost, Why Now?
• Legal Disclaimer