瞭解如何將組合件輸入 SOLIDWORKS Treehouse,然後修改組合件。 編輯組合件中零組件的自訂屬性、數量和抑制狀態。 在 SOLIDWORKS Treehouse 中將子組合件和零件新增至組合件。 在 SOLIDWORKS 中開啟組合件,並檢閱在 SOLIDWORKS Treehouse 中所做的修改。
SustainabilityXpress 可預估模型碳足跡、其生命週期中的能源消耗、空氣酸化及水優養化。 隨即會分析資訊,例如使用的材質、製造過程、製作區域、使用區域和壽命終結。 探索不同的材質和製造過程如何影響設計的環境影響力 指定產品使用資訊,以決定運輸和壽命終結的值。 瞭解「環境影響」圖表中顯示的資訊。 瞭解如何設定環境影響基準線來比較變更。 產生 Sustainability 輸出的報告。
將 reducing outlet tee 插入現有路線,並使用鍵盤快速鍵和三度空間參考來旋轉並決定方位。 使用「自動產生路線」工具來連接從其他特徵產生的管路。 將路線中接頭加入現有路線。 使用鍵盤快速鍵和三度空間參考,來放置路線中接頭並決定方位。
使用 SimulationXpress,套用固定物和負載並定義材質,來分析零件的變形。 隨負載及/或壓力和自訂材質變化。 瞭解如何啟動和執行 SimulationXpress 以分析單一本體零件。 熟悉在設計樹狀結構上使用項目。 瞭解壓力及/或負載只能均勻且一致地套用在面上。 瞭解自訂材質屬性必須精確代表零件材質。
調整網格密度以調整模擬精確度。執行模擬。使用 SimulationXpress 精靈檢視結果,例如模擬的應力、位移、變形和安全係數。 產生和儲存顯示模擬結果的 eDrawings 檔案或 Word 文件。 調整模擬中的網格。 執行模擬。 解讀模擬的結果。 產生包含結果的 eDrawings 檔案或 Microsoft Word 文件。
根據分析結果,將安全係數、應力上限或位移上限最佳化為可接受的值。在範圍內變動尺寸,以試著符合需求。 如果設計符合或超過安全係數,請簡化設計或減少材質成本。 最佳化設計以達到安全係數。 使用內建的自動功能最佳化模型。 執行模擬。
使用 SimulationXpress 觀察零件的應力分析,判斷零件在負載 (力或壓力) 影響下的變形。 瞭解 SimulationXpress 的假設和限制。 觀察零件上正在執行的應力分析。
使用 Routing Library Manager 產生和使用自訂的路線規格範本。 指定管路段的大小和規格。 從「管路與軟管資料庫」選擇管路和軟管。 插入內含路線規格範本的路線零組件。
This lesson contains exercises so you can improve your proficiency with Sketching before taking the Certified SOLIDWORKS Associate (CSWA) exam.
This lesson contains exercises so you can improve your proficiency with Features and Parts before taking the Certified SOLIDWORKS Associate (CSWA) exam. There are 12 practice exercises for Features and Parts so this is the first of two lessons containing these exercises.
This lesson contains exercises so you can improve your proficiency with Features and Parts before taking the Certified SOLIDWORKS Associate (CSWA) exam. There are 12 practice exercises for Features and Parts so this is the second of two lessons containing these exercises.
This lesson contains exercises so you can improve your proficiency with Assemblies before taking the Certified SOLIDWORKS Associate (CSWA) exam.
This lesson contains exercises so you can improve your proficiency with Additional Tools before taking the Certified SOLIDWORKS Associate (CSWA) exam. The additional tools include reference geometry, configurations, making changes to a model, and more. There are 10 practice exercises for Additional Tools so this is the second of two lessons containing these exercises.
This lesson contains exercises so you can improve your proficiency with Additional Tools before taking the Certified SOLIDWORKS Associate (CSWA) exam. The additional tools include reference geometry, configurations, making changes to a model, and more. There are 10 practice exercises for Additional Tools so this is the second of two lessons containing these exercises.
Automate the conversion of imported part geometry into a SOLIDWORKS feature-based, parametric model. Open an imported data file in SOLIDWORKS. Use the Import Diagnostics tool to repair imported geometry. View the FeatureWorks options. Use the Automatic feature Recognition Mode. Map the features to the part model. Guide the Automatic Recognition Mode for the best results.
Control the conversion of imported part geometry into a SOLIDWORKS feature-based parametric model by converting specific features interactively. Interactively convert feature types. Convert features types that cannot be used with automated methods. Recognize multiple similar features at the same time. Re-recognize geometry and change it to a different type. Add patterns from the list of recognized features.
Use Volume features to recognize geometry that does not match any other feature type. The volume feature can be replaced with a standard SOLIDWORKS feature. Recognize volume features. Recognize boss and cut revolve features. Use the Up To Face option with cut extrudes. Replace volume features with standard cut features. Edit the mapped features.
Convert imported sheet metal part geometry into SOLIDWORKS feature-based, sheet metal, parametric models. Recognize common sheet metal features such as Base Flanges and Sketched Bends. Flatten the result to view the flat pattern. Use a hybrid approach combining the automatic and interactive methods.
Convert imported assembly and multibody geometry into SOLIDWORKS feature-based, parametric models. Recognize imported assembly geometry as multiple parts. Use Edit Feature to recognize only selected features from the part. Use child features to recognize multiple features with a single selection.
