| 多材料砂型增材制造一体化共面铺砂工艺研究 |
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| 引用本文: | 胡央央,单忠德,杨浩秦,闫丹丹,王尧尧,张学良,陈子宇,孙玉成. 多材料砂型增材制造一体化共面铺砂工艺研究[J]. 精密成形工程, 2024, 16(1): 148-157 |
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| 作者姓名: | 胡央央 单忠德 杨浩秦 闫丹丹 王尧尧 张学良 陈子宇 孙玉成 |
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| 作者单位: | 南京航空航天大学,南京 210016;南京长江工业技术研究院有限公司,南京 210016;潍柴动力股份有限公司, 山东 潍坊 261000 |
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| 基金项目: | 国家重点研发计划:数字化冷冻砂型绿色铸造技术与装备(2021YFB3401200);江苏省基础研究计划(自然科学基金)青年基金(BK20230885) |
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| 摘 要: | 目的 针对复杂薄壁铸件高性能制造难题,本研究提出多材料砂型增材制造一体化共面铺砂工艺,实现多材料砂型的整体成形。方法 基于多材料砂型增材制造振动铺砂装置,通过优化固化剂含量、铺砂器开口宽度和振动频率,实现两种型砂材料的定量落砂。通过显微镜扫描表征和图像处理,系统地研究了在不同铺砂速度下的铺砂质量和型砂层厚变化规律。结果 在一定范围内,固化剂含量的增大会减小落砂流量,铺砂器开口宽度与振动频率的增加均提高落砂流量,当硅砂固化剂含量为2.3wt.‰、铬铁矿砂固化剂含量为2wt.‰、铺砂器开口宽度为2 mm、振动频率为500 Hz时,两种型砂落砂流量相等;在此基础上,铺砂速度提高会增加模糊长度,降低铺砂界面连接处和铺砂末端粗糙度。当铺砂速度为53.92 mm/s时,实现0.6 mm层厚的多材料稳定持续铺砂,界面连接效果好、铺砂精度高。结论 本研究突破多材料砂型增材制造一体化共面铺砂工艺,实现多材料砂型多区域定量均匀铺砂。
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| 关 键 词: | 多材料砂型 增材制造 铺砂质量 精准落砂 整体成形 |
| 收稿时间: | 2023-12-01 |
Research on Integrated Co-planar Sand Laying Process for Multi-material Sand Mold Additive Manufacturing |
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| HU Yangyang,SHAN Zhongde,YANG Haoqin,YAN Dandan,WANG Yaoyao,ZHANG Xueliang,CHEN Ziyu,SUN Yucheng. Research on Integrated Co-planar Sand Laying Process for Multi-material Sand Mold Additive Manufacturing[J]. Journal of Netshape Forming Engineering, 2024, 16(1): 148-157 |
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| Authors: | HU Yangyang SHAN Zhongde YANG Haoqin YAN Dandan WANG Yaoyao ZHANG Xueliang CHEN Ziyu SUN Yucheng |
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| Affiliation: | Nanjing University of Aeronautics and Astronautics, Nanjing, 210016, China;Nanjing Changjiang Industrial Technology Research Institute Co., Ltd., Nanjing 210016, China; Weichai Power Co., Ltd., Shandong Weifang 261000, China |
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| Abstract: | addressing the challenges in manufacturing high-performance complex thin-walled castings, this study The work aims to proposes an integrated co-planar sand laying process for multi-material sand mold additive manufacturing, aiming to achieve the holistic formation of multi-material sand molds and address the challenges in manufacturing high-performance complex thin-walled castings. Utilizing aA vibratory sand laying device was used for multi-material sand mold additive manufacturing, the study. The curing agent content, opening width of the sand laying tool, and vibration frequency were optimized to achieve quantitative sand laying for two types of molding sand materials. Through microscopic scanning and image processing, the study systematically investigated the quality of sand laying and the variation of sand layer thickness at different laying speeds were systematically investigated. Within a certain range, increasing vibration frequency and opening width both increased sand falling flow rate, while an increase in curing agent content reduced the sand falling flow rate. When the curing agent content was 2.3wt.‰ for silica sand, the curing agent content was 2wt.‰ for chromite sand, the sand laying tool opening width is 2 mm, and the vibration frequency is 500 Hz, the sand falling flow rate for two types of molding sands was equal. On this basis, increasing laying speed increased the fuzzy length and decreased the roughness at the sand laying interface and the end. At a laying speed of 58.2053.92 mm/s, stable and continuous laying with a thickness of 0.6 mm for multiple materials was achieved, demonstrating good interface connectivity and high laying precision. This study breaks through the integrated co-planar sand laying process for multi-material sand mold additive manufacturing, achieving quantitative and uniform sand laying for multiple materials in different regions of the sand mold. |
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| Keywords: | multi-material sand mold additive manufacturing sand laying quality precise sand falling holistic formation |
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