Study of the intrinsic mechanisms of nickel additive for grain refinement and strength enhancement of laser aided additively manufactured Ti–6Al–4V

It is well-known that grain refiners can tailor the microstructure and enhance the mechanical properties of titanium alloys fabricated by additive manufacturing(AM). However, the intrinsic mechanisms of Ni addition on AM-built Ti–6Al–4V alloy is not well established. This limits its industrial applications. This work systematically investigated the influence of Ni additive on Ti–6Al–4V alloy fabricated by laser aided additive manufacturing(LAAM). The results showed that Ni addition yields three key effects on the microstructural evolution of LAAM-built Ti–6Al–4V alloy.(a) Ni additive remarkably refines the prior-β grains, which is due to the widened solidification range. As the Ni addition increased from 0 to 2.5 wt. %, the major-axis length and aspect ratio of the prior-β grains reduced from over 1500 μm and 7 to 97.7 μm and1.46, respectively.(b) Ni additive can discernibly induce the formation of globular α phase,which is attributed to the enhanced concentration gradient between the β and α phases. This is the driving force of globularization according to the termination mass transfer theory. The aspect ratio of the α laths decreased from 4.14 to 2.79 as the Ni addition increased from 0 to2.5 wt. %.(c) Ni as a well-known β-stabilizer and it can remarkably increase the volume fraction of β phase. Room-temperature tensile results demonstrated an increase in mechanical strength and an almost linearly decreasing elongation with increasing Ni addition. A modified mathematical model was used to quantitatively analyze the strengthening mechanism. It was evident from the results that the α lath phase and the solid solutes contribute the most to the overall yield strength of the LAAM-built Ti–6Al–4V–x Ni alloys in this work. Furthermore, the decrease in elongation with increasing Ni addition is due to the deterioration in deformability of the β phase caused by a large amount of solid-solution Ni atoms. These findings can accelerate the development of additively manufactured titanium alloys.

An Integrated Geometric Modeling Methodology for 2.5D Cylindrical Prismatic Part for Computer Aided Process Planning

The field of solid modeling has created numerous techniques for unambiguous computer representations of three-dimensional objects. Its data structures and algorithms have been used in a broad range of applications: Computer-Aided Design and Computer-Aided Manufacturing (CAD/ CAM), robotics, computer vision, computer graphics and visualization, virtual reality, etc. This research paper is used to generate process plan from feature-based modeling, based on an integrated geometric modeling system that supports both feature-based modeling and information storage. Present system is developed only for milling components and limited to selective machining features for prismatic components and further implemented for more machining features to develop algorithms for modeling the components through the input of machining features. As a result, feature information is directly available to downstream activities, and feature extraction is no longer needed. The various systematic steps involved in this approach are study of Design, identification of Features, selection of Processes, Tools and Machines, Machining and Inspection [DFPTMMI]. Machining features generated in the design stage are recognized and stored under the Visual Basic control of CATIA software ActiveX interface. Algorithms are developed for individual features and these algorithms are embedded in Visual Basic forms. This system is discussed and suited for 2.5 Dimensional part approach, however, that can be extended to 3 dimensional prismatic part and complex features machining. Finally a process planning chart has been presented as a model process planning.

Computer-Aided Design and Fabrication of Finger Prosthesis

Custom-made esthetic finger prostheses, which are used for rehabilitation of patients with missing or impaired fingers, have been fabricated manually. However, such fabrication is time-consuming and requires manual skill. Here we propose a computer-aided method for fabricating finger pros-theses to save time and allow fabrications that do not require considerable manual skill. In this method, the dimensions of a patient’s healthy finger on the contralateral hand are first measured using a caliper. Using these dimensions, a three-dimensional model is constructed for fabricating a prosthesis for the patient’s impaired finger. Using the 3D model, a mold is designed using 3D modeling tools and a computer-aided design system. The resulting mold is then fabricated using a 3D printer. A finger prosthesis is fabricated by pouring silicone resin into the mold. A finger prosthesis for a volunteer was experimentally fabricated according to the proposed method. To evaluate the size and shape of the finger prosthesis, the difference between the finger prosthesis and the original finger of the volunteer was analyzed. Because the average difference between them was 0.25 mm, it was concluded that the proposed method could be used to fabricate a finger prosthesis of adequate size and shape.

现代集成制造系统中的CAID技术研究

在分析了CIMS中的CAID技术的设计需求和技术驱动的基础上,讨论了CIMS中的CAID技术内涵和基本特征。以信息共享、定制设计和协同设计为技术结合点,提出三种CIMS中的CAID技术应用模式,并结合工业设计过程,分析了三种模式的必要性和合理性,建立了CIMS中的CAID技术应用模型。最后阐述了每种应用模式实施的关键技术,说明了技术可行性。

Microstructure and mechanical behavior of laser aided additive manufactured low carbon interstitial Fe_(49.5)Mn_(30)Co_(10)Cr_(10)C_(0.5)multicomponent alloy

Laser aided additive manufacturing(LAAM)was used to fabricate bulk Fe_(49.5)Mn_(30)Co_(10)Cr_(10)C_(0.5)interstitial multicomponent alloy using pre-alloyed powder.The room temperature yield strength(σ_y),ultimate tensile strength(σ_(UTS))and elongation(ε_(UTS))were 645 MPa,917 MPa and 27.0%respectively.The asbuilt sample consisted of equiaxed and dendritic cellular structures formed by elemental segregation.These cellular structures together with oxide particle inclusions were deemed to strengthen the material.The other contributing components include dislocation strengthening,friction stress and grain boundary strengthening.The highε_(UTS)was attributed to dislocation motion and activation of both twinning and transformation-induced plasticity(TWIP and TRIP).Tensile tests performed at-40℃and-130℃demonstrated superior tensile strength of 1041 MPa and 1267 MPa respectively.However,almost no twinning was observed in the fractured sample tested at-40℃and-130℃.Instead,higher fraction of strain-induced hexagonal close-packed(HCP)εphase transformation of 21.2%were observed for fractured sample tested at-40℃,compared with 6.3%in fractured room temperature sample.

乳切牙树脂预成冠的数字化设计方法及初步应用

目的:本研究旨在探索乳切牙树脂预成冠的数字化设计和制作方法,并初步评价其临床适合性。方法:应用牙颌模型扫描仪获取儿童乳牙牙列教学模型4颗上颌乳切牙临床牙冠的三维数据,应用逆向工程软件Geomagic Wrap 2021,参考王慧芸教授对中国儿童乳牙外形的测量和统计数据,对上述上颌乳切牙三维扫描数据进行尺寸比例和三维形态的调整,以切端0.8 mm厚度和唇腭面0.3 mm厚度的牙冠设计参数,构建乳切牙预成冠标准尺寸数字模型。参考儿童口腔科临床常用的上颌乳切牙透明树脂冠各型号间的尺寸比例关系,设计出4个牙位(51、52、61、62)3个型号的乳切牙预成冠数字模型,通过五轴数控切削技术制作出临时冠桥树脂材质的乳切牙预成冠,进行临床病例试戴评价。结果:完成了上颌乳切牙(4个牙位)树脂预成冠的数字化设计和制作方法,并初步进行了临床病例应用,儿科高年资专家对本研究乳切牙树脂预成冠的应用评价显示,其在外观、颜色和强度等方面均可满足口腔儿科临床的应用需求。结论:本研究采用数字化方法设计和制作的乳切牙树脂预成冠,针对儿科临床乳切牙大范围龋损修复的病例,相比传统乳切牙透明树脂冠充填修复技术具有更好的牙冠解剖外形恢复和更佳的美观修复效果,并且该技术可以实现更便捷的临床操作流程,有较好的儿科临床应用前景。

计算机辅助设计和计算机辅助制造预成个性化同种异体骨块在种植骨增量手术中的应用进展

计算机辅助设计和计算机辅助制造(CAD/CAM)成形技术可以预成与受区更匹配的目标骨块,目前常应用于复杂的牙槽嵴增量术,通过数字化设计生产个性化的同种异体骨块,避免了传统椅旁骨块成形的步骤,大大增加了临床操作效率,提高了移植物适应的精度,利于移植物的血管化和骨整合,在未来骨增量的临床应用中前景可期。因此,本文就CAD/CAM预成个性化同种异体骨块(CABB)在当前种植骨增量手术的应用现状进行综述,并进一步探讨其存在的问题和挑战。

儿童带环丝圈式间隙保持器的椅旁数字化设计与制作方法初探

目的提出一种儿童带环丝圈式间隙保持器的椅旁数字化设计与制作方法,并初步验证其临床可行性。方法选取10例因乳牙早失需要进行间隙保持的患儿为研究对象,采集患儿口内扫描数据建立缺牙数字模型,使用自主研发的儿童带环丝圈式间隙保持器设计软件,完成个性化带环与丝圈结构的快速设计,生成一体化带环丝圈式间隙保持器的数字模型。分别采用椅旁金属数控切削工艺(试验组)和技工室金属3D打印工艺(对照组)制作间隙保持器。对保持器进行模型试戴,邀请儿童口腔高年资专家采用视觉模拟评分法(VAS)从间隙保持器的密合度、就位稳定性两个方面进行评价,并进行统计学分析。结果试验组10例间隙保持器的设计及制作总时间均小于1 h。统计分析结果表明,2组间隙保持器均满足临床使用需求,试验组间隙保持器的密合度、稳定性优于对照组。结论本研究提出的儿童带环丝圈式间隙保持器的椅旁数字化设计与制作方法,可实现初次就诊当日佩戴间隙保持器,临床可行性好,具有良好的临床应用潜力。

可切削聚合物渗透陶瓷在口腔修复中应用的研究进展

聚合物渗透陶瓷(PICN)作为一种新兴的口腔修复材料,因其独特的陶瓷-树脂双相互穿网络结构而受到广泛关注。该材料融合了陶瓷和树脂的优秀特性,能有效抵抗裂纹扩展,保护基牙及对颌牙,且具备出色的粘接性,在单冠、嵌体、部分冠和贴面修复方面展现出了良好的应用潜力和临床效果。本综述围绕PICN材料的组成、结构、力学性能、粘接性能、耐磨性、光学特性以及临床表现等方面进行详细阐述,并对其未来的发展趋势和应用前景进行展望。

CAD/CAM在口腔修复中的应用现状

近年来计算机辅助设计和制造(CAD/CAM)不断推动口腔领域的发展和改革。口腔修复是口腔医学的重要组成部分,CAD/CAM越来越多地运用于口腔修复,促使口腔修复飞速发展。通过总结多篇国内外文献,概述CAD/CAM在口腔修复中的应用进展。

不同弹性模量计算机辅助设计和计算机辅助制造桩核材料的应力分析

背景:桩核修复是牙体缺损修复的一种常规选择,然而不同桩核材料的修复效果存在差异。目的:利用有限元方法评估不同弹性模量桩核修复模型中桩核与牙根黏结剂部位的应力分布情况。方法:在三维建模软件中构建一个三维根管治疗过的上颌中切牙模型,进行全瓷冠修复,修复中的桩核材料分别使用纳米陶瓷树脂(弹性模量12.8 GPa)、复合树脂(弹性模量16 GPa)、混合陶瓷(弹性模量34.7 GPa)、玻璃陶瓷(弹性模量95 GPa)、钛合金(弹性模量112 GPa)和氧化锆(弹性模量209.3 GPa),将模型约束在皮质骨中,在中切牙牙冠舌侧1/3处加载与牙体长轴呈45°的100 N集中力,通过最大主应力分析修复模型中桩核、牙本质及桩与牙根黏结剂的应力分布。结果与结论:(1)当使用弹性模量较高的桩核材料时,修复模型中的桩核应力较集中;当使用弹性模量接近牙本质的桩核材料(纳米陶瓷树脂和复合树脂)时,桩核的应力分布较均匀;无论桩核材料如何,各修复模型中牙本质上的应力分布相似;使用弹性模量更高的桩核时,修复模型中桩与牙根黏结剂处显示出更多的应力集中。(2)纳米陶瓷树脂模型中桩核、牙根及桩与牙根黏结剂处的最大应力值分别为31.00,33.21,0.51 MPa,复合树脂模型中桩核、牙根及桩与牙根黏结剂处的最大应力值分别为36.84,33.14,0.59 MPa,混合陶瓷模型中桩核、牙根及桩与牙根黏结剂处的最大应力值分别为64.05,32.83,1.00 MPa,玻璃陶瓷模型中桩核、牙根及桩与牙根黏结剂处的最大应力值分别为112.30,32.69,1.73 MPa,钛合金模型中桩核、牙根及桩与牙根黏结剂处的最大应力值分别为120.00,32.17,1.86 MPa,氧化锆模型中桩核、牙根及桩与牙根黏结剂处的最大应力值分别为148.80,31.85,2.28 MPa。(3)桩核材料的弹性模量越高,进行桩核修复时桩核处的最大应力值越大,桩核材料弹性模量对修复模型中桩与牙根黏结剂处与牙本质的最大应力值无明显影响。

数字化技术在机械制造中的应用

随着数字化技术的不断发展,传统的机械制造方式正在迎来革命性的变革,计算机辅助设计(CAD)、计算机辅助制造(CAM)、计算机辅助工程(CAE)等为机械制造行业带来了巨大的变革,推动了制造业向智能、高效、可持续的方向发展。该文以机械制造过程中的数字化生产线、精密制造技术及数字化机床仿真技术为案例,深入探讨了数字化技术在机械制造中的应用,重点分析数字化生产线的建设及精密制造技术在数字化时代的发展趋势,最后聚焦于数字化机床仿真技术的研究。数字化技术为精密制造提供了更精准的工艺控制和质量监测手段,通过数字化仿真,制造企业可以在实际生产之前对机床性能进行精准评估,提高了设备的利用率和产品质量,为制造过程的优化提供了有力支持。

聚醚醚酮粘接桥修复牙周炎患者切牙缺失的临床研究

目的 研究聚醚醚酮(polyetheretherketone,PEEK)粘接桥修复牙周炎患者3颗以内切牙缺失的临床效果。方法 本研究已通过单位伦理委员会审查批准,并获得患者知情同意。选择38例3颗以内切牙缺失的牙周炎患者,进行PEEK粘接桥修复,并于修复完成后3、6、12、24个月复诊,通过改良USPHS/Ryge标准评估修复体生存情况,分别记录基牙的菌斑指数、牙龈指数、牙周探诊深度和附着丧失,观察比较修复前后基牙牙周组织的变化。结果 38例患者经过24个月临床随访观察,其中仅1例出现部分脱粘接后行二次粘接,评价为B级,其余37例均修复成功,评价为A级。修复后菌斑指数、牙龈指数、牙周探诊深度较修复前明显降低,差异有统计学意义(P<0.05),附着丧失修复前后无明显变化(P>0.05)。结论 对于缺失3颗以内切牙的牙周炎患者,PEEK粘接桥短期修复临床效果良好。

张口受限患者的数字化修复1例及文献回顾

目的探讨因系统性硬皮病导致的特殊张口受限(小口畸形)患者取模困难时准确得到其口内模型的方法。方法本研究遵循医学伦理,并获得患者知情同意。对1例肯氏Ⅰ类下颌牙列缺损的硬皮病张口受限患者应用以数字化技术为主导,结合传统印模方式的分段印模方案。根据其本身的左、右下颌牙列制作个别托盘后进行分段式取模,同时口内扫描取得上、下颌软硬组织形态数据。在获得各部分模型后,对下颌模型进行扫描和数字对齐,形成最终的牙列模型,并借助CAD/CAM技术设计制作最终的可摘局部义齿,同时结合文献对张口受限患者可摘局部义齿修复诊疗进行回顾分析。结果义齿固位良好,获得了良好的修复效果,患者对该义齿的咀嚼效率等功能行使均满意。文献复习结果表明,数字化技术结合传统印模方法,利用计算机进行拟合可以准确地得到患者口内模型,为后续修复做好基础工作。然而患者下颌牙列前段无牙时该流程误差可能较大,仍需要进一步完善。结论以数字化技术为主导,结合传统印模方式的分段印模方案用于修复张口受限患者的牙列缺损效果良好,患者就医体验、满意度高,值得临床推广。

数字化技术在农业机械设计及制造中的应用

数字化技术是指利用计算机和信息技术进行数据处理、分析和管理,以提高效率、精度和决策能力的技术手段,可以极大地提高机械设计和制造效率、精度。该文概述了目前应用较为广泛的3种数字化技术,即分析计算机辅助设计(CAD)、虚拟现实(VR)技术和制造执行系统(MES)技术在农业机械三维建模、仿真、预测性维护及实时监控生产过程中的应用原理及优势,优化生产计划,及时发现和解决生产中的问题,保证生产过程的高效和质量的一致性。数字化技术的应用,大大提升了农业机械设计和制造的水平,为农业机械的智能化、精细化发展奠定了坚实的基础。

MANUFACTURING SERVICE SYSTEM BASED ON WEB SERVICES FOR PARALLEL KINEMATICS MACHINES

Parallel kinematics machine （PKM） is advantageous over the serial machine tools in processing the complex-surface products. A manufacturing service system for PKM is developed to provide the services of the complex-surface machining for potential geographically-dispersed manufacturing enterprises. In order to easily in- tegrate the external system, Web services are used to encapsulate post-processing functions of PKM legacy sys- tems, including compilation, workspace calculation, interfere calibration, and kinematics transformation. A ser- vice-oriented architecture（SOA） is proposed for the cooperative work between the PKM system and its client. The workflow and the function module of this manufacturing service system are presented. An example shows that as a result of SOA and loose coupling, such a Web service-based manufacturing service system is easier to in- tegrate and interoperate with its client. Meanwhile, the system decreases the manufacturing cost and improves the efficiency than its former kind of distributed system.

口腔种植修复中钛基底氧化锆基台的制作和力学性能

背景:随着计算机辅助设计和计算机辅助制造技术的发展,钛基底氧化锆基台因具备良好的应用优势被广泛运用于临床,但仍存在一些问题,尚缺乏共识性的设计标准。目的:综述钛基底氧化锆基台的制作方法及基台连接、穿龈设计、基台角度和粘接对钛基底氧化锆基台各类力学性能的影响。方法:检索Pub Med数据库和中国知网2010-2023年发表的相关文献,检索词为“zirconia abutment,titanium base;氧化锆基台,钛基底”,部分经典文献延长检索时间限制,通过纳入和排除标准获取相关文献,对57篇符合标准的文献进行综述。结果与结论:建议临床医生尽量选择具有抗旋结构的基台连接或是具有莫氏锥度的非抗旋连接,当运用钛基底氧化锆基台时,种植体应放置在正确的轴向角度(植体轴向向唇侧倾斜角度不超过15°或略向腭侧倾斜);当植体轴向向唇侧倾斜角度≥30°时,应当适当降低咬合力,以降低种植体、基台及修复体机械并发症和生物并发症的风险;应尽可能选择穿龈高度较高的钛基底,并且其穿龈角度不应超过40°。Multilink Hybrid Abutment可以作为氧化锆基台与钛基底口外粘结的首选粘接剂。

数字化辅助设计与制造的新型开窗式定制托盘精度及适合性研究

目的:应用新研发的数字软件设计并制作新型开窗式定制托盘,并对其精度和适合性进行评价。方法:选取标准下颌肯氏II类牙列缺损的哑光金属模型作为初始模型,台式扫描仪扫描并以STL格式保存。在托盘设计软件中完成模型倒凹填补、托盘边缘线及[牙合]支托的绘制;添加手柄、排溢孔和咬合堤结构,完成托盘设计。应用三维打印技术制作聚丙烯酸材质的新型开窗式定制托盘10副。扫描托盘,将托盘数据导入Geomagic软件中,以托盘组织面为共同区域,将托盘CAD数据和三维扫描数据进行配准,利用3D偏差分析功能测量两者之间的偏差。将托盘复位于初始模型上扫描后获得“托盘-模型”数据并导入Geomagic软件中,将“初始模型”及“托盘”数据分别对齐于“托盘-模型”数据,测量并分析托盘内表面数据和初始模型数据之间的距离偏差。结果:新型开窗式定制托盘内表面打印精度相较于设计数据整体RMS估计值平均偏差值为(0.140±0.021)mm,[牙合]支托区平均偏差为(0.115±0.024)mm,游离端鞍基区平均偏差为(0.185±0.036)mm。托盘内表面与初始模型外表面平均间隙大小平均偏差为(0.998±0.042)mm,[牙合]支托区平均间隙量为(0.119±0.048)mm,,游离端鞍基区平均间隙量为(0.989±0.082)mm。结论:新研发软件设计制作的新型托盘具有良好的精确度和适合性,可用于游离端牙列缺损修正印模的制取。

橡皮障隔离技术在椅旁CAD/CAM瓷嵌体修复治疗中的应用

目的研究橡皮障隔离技术在椅旁计算机辅助设计(CAD)/计算机辅助制作(CAM)瓷嵌体修复治疗中的应用效果。方法选择2020年1月—2022年1月医院牙体牙髓科行椅旁CAD/CAM瓷嵌体修复治疗的患者60例,随机分为研究组和对照组,各30例。对照组按照常规流程操作,使用常规方法进行术野隔离;研究组在操作治疗中运用橡皮障隔离技术。比较两组总治疗时间和不良反应发生情况。结果两组患者的嵌体冠修复体在冠边缘、密合性、咬合关系等方面均良好。研究组总治疗时间(118.83±19.15)min,较对照组(141.26±11.74)min缩短,差异有统计学意义(P<0.05);研究组无不良反应发生,对照组发生1(3.33%)例不良反应。结论橡皮障隔离技术可有效缩短椅旁CAD/CAM瓷嵌体修复治疗时间。

CAD/CAM与传统暂时性修复体边缘及内部适合性的体外研究

目的研究CAD/CAM方法与传统方法对暂时性修复体的边缘及内部适合性的影响。方法将60颗全冠预备标准模型树脂牙随机分成四组(n=15):Protemp^(TM)4组、PMMA组、Cemeo组和Upcera PMMA组。制作出相应冠修复体后,将其粘接于相应的标准模型牙上,水浴24 h,沿颊舌向的定位线切开。体视显微镜放大后拍照,利用Imageview显微测量软件对边缘及内部的参考点的间隙进行测量,并进行统计学分析。结果3组CAD/CAM暂时性修复体间边缘适合性、轴壁适合性、轴牙合线角适合性、牙合面适合性两两比较差异无统计学意义(P>0.05),传统暂时性修复体Protemp^(TM)4与3组CAD/CAM暂时性修复体间任意一组边缘适合性、轴壁适合性、轴牙合线角适合性、牙合面适合性两两比较差异均具有统计学意义(P<0.05)。结论CAD/CAM暂时性修复体的边缘及内部(轴壁、轴牙合线角、牙合面)适合性优于传统直接法制作的暂时性修复体。