《智能制造》2022年總目次

第1期

百度智能云開物秀出全年成績等 ··························································6

濰柴動力發布全球首款本體熱效率51.09%柴油機等 ··········································7

智能制造是一種新的先進生產方式 ······················································10

董景辰：“十四五”時期，智能制造中小企業如何突破邊界？ ································· 13

守正創新，鍛造核心競爭力，推動智能制造高質量發展 ······································ 15

郝玉成：夯實基礎 創新驅動 加快智能制造的高質量發展 ·····································19

蔣白樺：石油化工行業在智能制造領域的探索與實踐 ········································21

寧振波：任重而道遠，實現智能制造需要知識積累和技術突破 ·································24

增強智能制造裝備供給 提升智能制造發展核心能力··········································26

以高水平智能制造系統規劃設計引領企業高質量發展 ········································28

助力打造首都高水平人才高地 智能制造卓越工程師培訓活動在京舉辦 ···························31

聚智協同，融合創新 2021工業互聯網從業者能力提升主題沙龍舉辦 ···························· 33

回歸聯想的基本面，是什么在支撐聯想進軍智能制造？ ······································ 35

數字孿生賦能數字化轉型升級 ···························································38

培養智能制造專業技術人才，推動裝備制造業提質升級 ······································41

基于智能制造系統整體 設置賽點創新點 ···················································43

2021年全國行業職業技能競賽——第四屆全國智能制造應用技術技能大賽決賽獲獎名單 ············46

大型電力裝備企業智能制造實踐之路 ·····················································52

一種無學習的二連桿機械臂定位控制策略 ·················································60

智能化焊接機器人工作站在風機上的應用 ·················································64

基于等效損傷的航天產品抗沖擊設計準則及其驗證 ··········································68

基于配置化設計生成自動化圖樣的思路和方法 ··············································72

新一代國產化PLM系統的研發與實現 ·····················································79

Subdivision建模在汽車造型數字化設計中的應用研究 ········································86

組織數字孿生構建方法研究 ····························································91

自動化倉儲系統智能調度管理軟件設計 ···················································97

無線通信在電動單軌石英棒輸送系統中穩定性分析 ·········································102

大型電子裝備總裝數字化工廠制造運營管理系統 ···········································106

基于獲取可持續競爭優勢的制造企業智能化轉型升級研究與應用 ······························112

智能工廠全鏈路信息物理融合可視交互系統 ··············································116

智能建造專業實踐教學改革研究 ························································121

選區激光熔化ZL205A合金組織和性能研究 ················································124

第2期

三項航天成就入選 2021 年度中國科學十大進展等 ············································5

2021 年我國制造業總量達 31.4 萬億元等 ···················································6

著力推廣市場化五項改革舉措 扎實加快數字工廠的建設與發展 ·································7

我國工業互聯網創新發展成效及建議 ·····················································16

聽兩會熱詞“工業互聯網” ，看徐工漢云賦能制造強國 ······································18

未雨而綢繆，供應商協同怎么破？ ·······················································20

燈塔引領的離散制造業數字化轉型實踐 ···················································24

聚焦兩會熱詞 把握 2022 年智能制造新風向 ················································31

PTC 深耕工業物聯網 制造業轉型不再“摸著石頭過河” ······································35

新一代信息技術與制造業深度打造智能制造示范工廠 ········································38

國外主要國家制造業智能化政策動向及啟示 ···············································44

面向預測性維修的工程裝備故障預測方法研究綜述 ··········································50

鋼板樁自動清洗設備的研究 ····························································56

MDM 制造文檔管理在工藝部門的應用與研究 ···············································59

智能制造執行系統技術發展及工業軟件平臺構建分析 ········································62

考慮軸承非線性的風電機組主軸強度分析 ·················································67

首尾相連的自由曲面測量路徑優化 ·······················································72

基于 Solidworks Flow Simulation 的板翅式換熱器基板溫度場優化研究 ·························77

基于有限元的斗輪堆取料機門座架結構分析與改進 ··········································84

面向機匣零件數控加工的參數優化及應力控制技術 ··········································89

OMV小車及 5G 技術在高純石英棒智能制造車間的融合應用 ···································94

聚乙烯燃氣管材行業數字化車間建設與應用 ···············································98

實施 ETC 產品數字化車間構建與應用 ····················································103

大宗固廢硅鋁高效分離和過濾設備的技術創新 ·············································109

影響精密軸承振動性能的主因素分析 ····················································115

智能傳感技術是實現智能制造的關鍵 ····················································120

智能物流技術與裝備人才培養途徑研究 ··················································125

第3期

首套國產超長工作面成套技術與裝備成功試運轉等 ···········································5

2022年跨行業跨領域工業互聯網平臺名單公布等·············································6

美國2022年第一季度機床訂單達到20年來最高水平等 ·········································7

自覺把握、運用好科技創新與培育單項冠軍企業之間蘊涵著的內在邏輯——談談縣域科技創新的成功之道 ························································8

攻克制造業轉型發展的最后一個堡壘——工業軟件 ··········································11

基于價值流分析的智能工廠規劃設計方法研究 ··············································16

動力總成車間數字化方案 ······························································20

從數字化車間建設場景“破局”，以先進技術深挖工業數據價 ·································23

秦川集團的數字化工廠建設實踐 ·························································26

基于AI視覺技術構建柔性生產數字化車間 ··················································30

電氣設備制造行業智能工廠研究 ·························································34

太陽能電池智能工廠分析 ······························································37

新華三張力：聚焦主航道，做深做透重點行業數字化轉型 ····································40

全流程質量管控的智能制造實踐 ·························································44

一種基于CCD的汽車雨刮心軸自動檢測機構 ················································49

基于機器視覺的擦玻璃機器人研制 ·······················································55

虛擬機床仿真定制和應用 ······························································59

基于NX的通用標準件庫建模方法研究·····················································63

電力二次設備配線工藝數字化研究 ·······················································68

一種面向生產線仿真快速建模的復合模型庫設計與實現 ······································73

基于SVM的精密軸系成功子樣數據包絡分析 ················································77

基于多種群遺傳算法與Plant Simulation的車間調度優化 ·····································81

三次風布置形式對分解爐影響的數值模擬 ·················································87

基于國產CAXA軟件對結構復雜零件工藝驗證 ···············································91

工業互聯網平臺產業發展現狀及趨勢分析 ·················································94

基于Pro/Program的鈑金件參數優化設計 ··················································97

日用陶瓷智能制造系統設計研究 ························································101

基于機器視覺的內燃機試驗臺架火災監測方法 ·············································105

智能加鉛物流系統在海纜鉛護套生產過程中的應用 ·········································109

立式閉路循環干燥機的創新與發展 ······················································114

一種耐磨管路焊接定位工裝設計 ························································118

軍工制造企業數據管理駕駛艙的設計與應用 ··············································121

工業機器人專業“數自融通”人才培養模式的研究 ·········································125

第4期

百萬莊論壇：機工智庫發布會（2022）在京舉辦等 ···········································5

動力電池產業發展指數發布等 ····························································6

美國發布《2022制造業網絡安全路線圖》等 ················································7

從石油化工制造的本質看其智能化轉型的基本路徑 ···········································8

工業中小企業向數智工廠運營模式轉型的實施方法與路徑 ····································13

復雜電子裝備全層級、多專業協同的企業智能制造體系研究與實踐 ·····························20

中藥飲片生產行業數字化轉型可行性方案實踐分析 ··········································25

重型裝備數字化轉型中智能操作系統的構建方法分析 ········································28

化纖行業數字化轉型技術實施路徑 ·······················································33

工業互聯網賦能石化產業數字化轉型 ·····················································37

動物生物疫苗企業數字化轉型路徑研究 ···················································40

AI能深入場景創造真價值，要為企業解決真痛點 ············································44

動力電池催生回收藍海，智能化是關鍵 ···················································47

馬玉山院士深度解讀：智能制造的“五維八化” ···········································49

電力裝備制造業智能工廠規劃與實踐 ·····················································52

基于機器人自動制孔的在線檢測系統設計 ·················································58

一種新型自動化上料機構在點膠機中的應用 ···············································63

面向復雜產品研制的數字化技術狀態管理系統 ··············································66

乘用車輪轂性能試驗仿真方法綜述 ·······················································72

基于互聯網大數據的智慧環衛系統研究與分析 ··············································79

基于 CATIA 的鏡像加工研究 ····························································83

檢測結果數字化賦能智能制造 ···························································87

防撞梁彎曲模具設計數據分析 ···························································91

提高齒輪箱扭矩密度的設計制造方法 ·····················································95

工業控制系統自動異常檢測方法的應用綜述 ···············································99

與DCS 深度融合的火電廠智能監盤系統的研究與開發 ·······································103

航空產品成品協同研制和管理關鍵技術研究 ··············································108

面向智能車間的空中物流系統研究與設計 ················································112

火箭發動機低溫高速軸承失效機理及改進設計 ·············································117

一模六產品篩板模具的設計與應用 ······················································121

數字化數控加工工藝設計方法創新探索 ··················································124

第5期

我國海洋油氣裝備智能制造項目在天津完工等 ···············································9

《專精特新中小企業發展報告（2022年）》發布等 ··········································10

氫能為工業供應鏈帶來巨大機遇等 ·······················································11

AI+工業互聯網加速工業智能化升級——智能風正勁圓桌論壇成功舉辦 ··························12

2022智能制造零距離系列論壇專家觀點集錦 ···············································16

數字孿生在卷煙企業的應用場景研究 ·····················································22

基于數字孿生的玻璃絕緣子生產車間架構 ·················································29

數字孿生是基于模型的體系工程 ·························································33

數字孿生技術專利分析 ································································40

數字孿生仿真與調試實訓平臺的設計 ·····················································45

基于數字孿生的虛擬數字化工廠平臺 ·····················································50

高速動車組構架焊接工藝柔順成線智能制造新模式 ··········································56

基于卷積神經網絡的機載絕緣子水沖洗設備的設計研究 ······································62

大跨度直徑的珩磨裝置結構設計 ·························································67

RapidCart 智能購物車 ·································································70

陀螺電機軸承試驗分析 ································································74

焦化行業智能工廠數字化系統結構設計 ···················································78

以協同創新為導向的智能制造生態鏈構建 ·················································83

智能洗煤設備制造車間管理系統的設計 ···················································87

基于三層架構的鐵路信號BIM設計技術路線研究 ············································90

基于長短時記憶模型網絡的水處理系統參數預測與評價 ······································96

基于UGNX 的變速箱殼體有限元分析及仿真 ···············································100

一種閥門零部件參數化及尺寸驅動設計方法的應用 ·········································103

中藥材產地加工（趁鮮切制）質量追溯信息系統解決方案可行性分析 ··························107

垂直循環升降立體停車技術在光纖預制棒智能物流方面的應用 ································110

關于制造業中小企業智能升級的思考 ····················································115

中望機械CAD、中望3D 軟件在高職院?！稒C械制圖》教學中的應用研究 ························119

虛擬仿真技術在材料類專業教學中的應用 ················································126

第6期

2022世界智能制造大會在南京召開等 ······················································7

工信部公布45個國家先進制造業集群名單等 ················································8

《2022移動機器人市場報告》發布等 ······················································9

對工業互聯網產業創新生態組織體系發展邏輯的思考 ········································10

汽車“新四化”的底層技術邏輯 ·························································13

云智一體，深入長三角智能制造“腹地” ·················································18

海克斯康：夯實本土工業軟件基石 做大做強工業互聯網 ····································22

深入學習貫徹黨的二十大精神，推進智能制造高質量發展 ····································30

深入推動智能制造發展 堅定不移建設制造強國 ·············································31

勇攀智能制造新高峰 以標準助力新型工業化發展 ···········································33

智能制造是制造業高質量發展的必答題 ···················································34

以制造強國戰略為指引，以智能制造為主攻方向，推動上海先進制造業高質量發展 ················37

持續推進智能制造 助力制造強國 ························································38

以“強國長子”的使命與擔當 加快實現智能制造高質量發展 ··································40

發展智能制造 推動制造業高質量發展 ·····················································42

堅持推進先進制造與新興技術融合發展 打造鋼鐵工業智能制造新格局 ···························43

發展數字經濟、推進數字化轉型、堅持智能制造 ············································45

智能制造是制造業支撐中國式現代化的應有之義 ············································46

以智能制造為主攻方向，深入推進電子裝備企業轉型升級 ····································47

深刻把握中國式現代化，構建智能制造發展新格局 ··········································49

加快構建和完善智能制造知識體系 ·······················································50

振華重工對RESTful協議的支持與應用 ····················································53

機器人錫焊溫度數據分析方法 ···························································57

基于機器人自動制孔的在線檢測系統設計 ·················································62

測試臺自動化上下料的研究及應用 ·······················································66

智能制造之數字化轉型核心——MES/MOM落地 ············································70

基于LabVIEW的汽車狀態監測系統仿真開發 ················································74

MES在手機生產核心工序的研究應用 ·····················································79

選煤工程設備庫管理系統設計與實現 ·····················································83

基于Ansys的自動轉換開關電器機構運動仿真與設計優化 ·····································86

高密度板級電路智能工藝決策技術研究 ···················································89

面向數字孿生的工業互聯網平臺構建技術研究 ··············································94

基于邊緣計算的現代商業物流企業數據采集基礎環境建設研究 ·································99

食品快速檢測實驗室智能求助設備開發研究 ··············································104

多脈沖熱成型鋼點焊工藝研究 ··························································107

手控瓷磚切割機自動化技術改造 ························································111

飛針式在線測試儀的機械運動精度分析 ··················································114

發動機工廠機加工車間壓縮空氣節能案例分析 ·············································117

“智改數轉”背景下智能制造實訓基地改造提升的研究與實踐 ································120

基于“崗課賽證研”育人模式的機械創新設計課程重構 ·····································124