SmartPaint:a co-creative drawing system based on generative adversarial networks

Artificial intelligence(AI) has played a significant role in imitating and producing large-scale designs such as e-commerce banners. However, it is less successful at creative and collaborative design outputs. Most humans express their ideas as rough sketches, and lack the professional skills to complete pleasing paintings. Existing AI approaches have failed to convert varied user sketches into artistically beautiful paintings while preserving their semantic concepts. To bridge this gap, we have developed Smart Paint, a co-creative drawing system based on generative adversarial networks(GANs), enabling a machine and a human being to collaborate in cartoon landscape painting. Smart Paint trains a GAN using triples of cartoon images, their corresponding semantic label maps, and edge detection maps. The machine can then simultaneously understand the cartoon style and semantics, along with the spatial relationships among the objects in the landscape images. The trained system receives a sketch as a semantic label map input, and automatically synthesizes its edge map for stable handling of varied sketches. It then outputs a creative and fine painting with the appropriate style corresponding to the human’s sketch. Experiments confirmed that the proposed Smart Paint system successfully generates high-quality cartoon paintings.

Confucian Co-creative Ethics： Self and Family

A general account of the Confucian self as either collectivist or relational requires careful examination. This article begins with the major textual resources of the Confucian tradition and then compares this idea of moral expansion with Deweyan ideas of the self and community. By parsing key Confucian terms that comprise the meaning of ＂being together＂ and ＂mutual association,＂ the author argues that Confucian selves and individuals are fundamentally contextually creative. By comparing the Confucian idea of family with the Deweyan notion of community, the author further supports his argument that the Confucian self is always co-creative with others. Despite the fact that Confucian ethics has long been considered either a kind of virtue ethics or a kind of role ethics, the author argues that Confucian ethics is better viewed as a kind of co-creative ethics, which stems from an ethical theory concerning the co-creative self and other.

热处理对选区激光熔化Co-Cr合金微观组织与力学性能的影响

热处理不仅可以消除激光增材制造材过程中的热应力,还可以调控材料组织结构和力学性能。本文研究了选区激光熔化Co-Cr合金微观组织在不同热处理条件下的变化及其相应的力学性能。研究发现,打印态下合金组织为γ奥氏体,基体中存在大量层错和亚晶界组织,以及少量四方σ-CoCr沉淀相;在1150℃下保温1 h,发生γ-ε转变,ε马氏体含量为10.4%(V/V),同时沉淀相由四方σ相转变为六方Co_(3)W(Mo)_(2)Si相;再经过800℃处理2 h后,马氏体含量进一步增加至15.5%(V/V),同时沉淀相数量增加且尺寸增大。热处理后的沉淀相对力学性能影响显著,材料的硬度从31 HRC提高至38 HRC,屈服强度从848 MPa提高至1119 MPa。本研究可以为研究激光选区熔化Co基合金组织与性能调控提供参考。

Co-Cr共掺杂金红石型TiO_2电子结构和光学性质的第一性原理研究

基于密度泛函理论,采用第一性原理赝势平面波方法计算了Co、Cr单掺杂以及Co-Cr共掺杂金红石型TiO2的能带结构、态密度和光学性质.计算结果表明:纯金红石的禁带宽度为3.0eV,Co掺杂金红石型TiO2的带隙为1.21eV,导带顶和价带底都位于G点处,仍为直接带隙,在价带与导带之间出现了由Co 3d和Ti 3d轨道杂化形成的杂质能级;Cr掺杂金红石型TiO2的直接带隙为0.85eV,在价带与导带之间的杂质能级由Cr 3d和Ti 3d轨道杂化轨道构成,导带和价带都向低能级方向移动;Co-Cr共掺杂,由于电子的强烈杂化,使O-2p态和Ti-3d态向Co-3d和Cr-3d态移动,使价带顶能级向高能级移动而导带底能级向低能方向移动,极大地减小了禁带的宽度,也是共掺杂改性的离子选择依据.掺杂金红石型TiO2的介电峰、折射率和吸收系数峰都向低能方向移动;在E<2.029eV的范围内,纯金红石的ε2、k和吸收系数为零,掺杂后的跃迁强度都大于未掺杂时的跃迁强度,Co-Cr共掺杂的跃迁强度大于Co掺杂及Cr掺杂,说明Co、Cr共掺杂更能增强电子在低能端的光学跃迁,具有更佳的可见光催化性能.

激光熔覆WC/Co-Cr合金涂层的高温磨损性能

采用激光熔覆法于45钢表面熔覆了WC/Co-Cr合金涂层,研究了涂层的组织与高温滑动磨损特性。结果表明:所制备的涂层高温耐磨性能良好。磨损试验温度为室温(RT)至200℃时,熔覆层的磨损机制表现为磨粒磨损与粘着磨损;200~500℃时,磨损机制转变为轻微擦伤与氧化磨损共同作用;600℃时磨损机制为塑性涂抹。

WC/Co-Cr复合涂层激光熔覆工艺优化与表征

目的优化复合涂层的熔覆工艺参数,获得综合性能优异的WC/Co-Cr复合涂层。揭示复合涂层的相结构、组织构成及界面特性。方法采用YAG固体激光器在45钢上熔覆WC/Co-Cr复合涂层,以电流、频率、脉宽、扫描速度作为变量,设计四因素三水平正交试验,对熔覆效果进行评分,获得最佳参数组合。通过XRD,XRF,OM,EMPA等分析手段对复合涂层进行表征。结果电流对熔覆效果的影响最显著,其次为频率,再次之为激光扫描速度,脉宽的影响显著性最小。随WC含量增加,激光脉宽应增加,而激光扫描速度应该适当减小。复合涂层的显微组织形貌主要为固溶体上分布着共晶组织以及金属间化合物、碳化物,还有由成分过冷导致的胞状组织。复合涂层的物相组成包括Cr Co,WC,Cr7C3,Cr3C2等。结论采用WC质量分数10%的熔覆粉末,最佳熔覆工艺组合为:电流380 A,频率40 Hz,脉宽1 ms,扫描速度8 mm/s。采用WC质量分数20%的熔覆粉末,最佳熔覆工艺组合为:电流380 A,频率40 Hz,脉宽1.5 ms,扫描速度6 mm/s。复合涂层与混合粉末相比,相组成发生了变化,有金属间化合物、碳化物等强化相产生,且元素在界面的分布呈现过渡式变化,这对涂层的综合性能有利。

牙科Co-Cr烤瓷合金的金瓷结合性研究

通过对牙科Co-Cr烤瓷合金的XRD、SEM和EDS分析、热膨胀系数及金瓷结合强度的测定,研究了合金的成分、热膨胀系数及固态相变对其金瓷结合性的影响。试验测得Co-Cr合金的金瓷结合强度为40.9MPa,高于标准YY0621-2008中要求的25MPa。合金的显微组织由fcc钴的固溶体、hcp钴的固溶体、岛状的金属间化合物及σ相构成。合金与陶瓷的热膨胀系数差为(0.5～0.6)×10-6/℃。烤瓷过程中,合金中fcc相向hcp相的转变以及σ相的析出,降低金瓷匹配性,增大烤瓷修复体的崩瓷、裂瓷率。

Co-Cr水滑石的合成及其衍生双金属氧化物催化活性研究

用低饱和共沉淀法合成了不同 Co/ Cr摩尔比的水滑石类化合物 ,采用 XRD,IR,DTA-TG,分光光度法对其结构进行了表征 ,并以其为前体分别经 35 0℃ ,4 5 0℃灼烧处理得双金属氧化物催化剂 ,用乙醇脱水、脱氢为探针反应 。

软质Co-Cr合金针型高嵌体修复隐裂后牙

目的 探讨Co -Cr合金针型高嵌体修复隐裂后牙的方法及效果。方法 对 42颗经完善内科治疗的隐裂后牙行针型高嵌体修复。结果 随访观察 1年 ,42颗经修复的隐裂后牙中 ,38颗使用良好 ,1颗因高嵌体脱落重新制作 ,1颗有咬合高点 ,2颗发生食物嵌塞。结论 Co-Cr合金针型高嵌体修复隐裂后牙 ,能保护患牙和行使咀嚼功能。

Magnetically induced phase separation in the fcc phase and thermodynamic calculations of phase equilibria of the Co-Cr system

Two-phase equilibria between the ferromagnetic fcc and the paramagnetic fcc phase from 800 ℃ to 900 ℃ in the Co-rich region have been detected by the diffusion couple technique. Two phase separation region of the fcc has been confirmed along the Curie temperature.The phase equilibria including the present results and the thermodynamic data of the Co-Cr system reported in the literature were analyzed on the basis of the thermodynamic evaluation. A set of thermodynamic values for the liquid, fcc, hcp, bcc, sigma phases was obtained. The calculated phase equilibria were in good agreement with most of the experimental data.

在45钢上等离子喷焊Co-Cr结合层的组织结构

研究了等离子喷焊Co-Cr合金与45钢间结合层的组织结构。结果表明,结合层由异相复合和单相(脱碳)两个亚层组成。异相复合亚层很薄,只有几个微米,它由非晶和微晶以及少量分布不均的Cr-Fe复合碳化物组成,硬度较高(HV>500);脱碳亚层-单相薄层是由于基材次表层中碳向液态金属扩散所致;喷焊特征层包括铸造技晶亚层(较厚)和细晶粒亚层。

电压对电刷镀Co-Cr3C2复合镀层的影响

采用电刷镀在45钢表面制备了Co-Cr3C2复合镀层。镀液组成和工艺参数为：CoSO4·7H2O 430 g/L、Cr3C2450 g/L、H3BO330 g/L、NaCl 5 g/L、pH=4.0、温度25℃,电压10~28 V。研究了电压对Co-Cr3C2复合镀层的表面形貌、相结构、Cr3C2颗粒含量、显微硬度和耐磨性的影响。结果表明：随着电压的增大,该镀层的表面平整度不断改善,小于22 V时,Cr3C2颗粒的含量不断升高,硬度和耐磨性也不断上升。当电压大于22 V时,该镀层中Cr3C2颗粒含量逐渐下降,导致涂层的硬度和耐磨性下降。

白色念珠菌对铸钛、Co-Cr合金、Ni-Cr合金修复体失泽腐蚀的影响

目的 :研究口腔白色念珠菌对铸钛 (Gr2 )、Co- Cr合金、Ni- Cr合金修复体的失泽影响。方法 :将 Co- Cr合金、Ni- Cr合金、纯钛分别铸造制备成 10 mm× 10 mm× 1mm板片 ,将每组 30片随机分空白对照组、培养基对照组、实验组各 10片。需氧环境将白色念珠菌接种到沙保罗葡萄糖琼脂培养基后 ,将试件贴附其表面每周转换传递 1次 ,共 10周。0 .5 g/ L戊二醛消灭细菌清洗 ,2周后 ,用 Minolta CR- 10 0型色度计观察。结果 :铸钛、Co- Cr合金、Ni- Cr合金修复体的空白对照组与培养基对照组的 L*、a*、b*值无显著差异 (P>0 .0 5 )。Co- Cr合金修复体空白对照组和培养基对照组分别与实验组 L*、b*差别不显著 (P>0 .0 5 )。与实验组 a*差别显著 (P<0 .0 5 ) ;铸钛、Ni- Cr合金修复体实验组分别与空白对照组和培养基对照组 L*、a*、b*值有明显差异 (P<0 .0 5 )。结论 :白色念珠菌对 Co- Cr合金修复体只影响绿色区域内颜色 ,对明度和黄色区域内颜色无影响。对 Ni- Cr合金、铸钛修复体色泽有影响 ,引起失泽变化。

Co-Cr3C2-WC/Al2O3太阳能选择性吸收涂层制备与性能研究

目的研究不同比例的Co-Cr3C2-WC吸收层的光谱发射与吸收性能,并在吸收层表面制备Al2O3减反膜,进而得到一种新型中高温金属-陶瓷型太阳能选择性吸收涂层。方法采用超音速火焰喷涂法(HVOF)在不锈钢基底制备Co-Cr3C2-WC吸收层,并对其成分比例进行优化,再通过溶胶-凝胶法(Sol-Gel)在吸收层表面制备Al2O3减反膜。通过X射线衍射仪(XRD)、X射线光电子能谱(XPS)、扫描电子显微镜(SEM)等,对涂层的物相、元素价态、微观形貌进行表征分析。采用表面粗糙度仪测量涂层的表面均方根粗糙度。利用傅里叶红外光谱仪和紫外可见分光光度计分别测量涂层在远红外波段和紫外可见近红外波段的光谱反射率。结果90Co-5Cr3C2-5WC(wt.%)吸收层具有最高的品质因子(吸收率/发射率α/ԑ=0.805/0.308),且表面增加Al2O3减反膜后的涂层吸收率增加至0.903,发射率降低至0.278。涂层表面均匀致密,表面粗糙度Ra降低到1.109μm。在750℃大气环境下热处理100 h后,涂层吸收率增大到0.910,发射率为0.315,选择吸收性能稳定。结论90Co-5Cr3C2-5WC吸收层在保持较高的吸收性能下,有效地改善了热喷涂涂层的表面状态,降低了吸收层的发射率。Al2O3减反膜通过增大短波段光的透过作用以及封孔作用,进一步增大了复合涂层的吸收率,提高了涂层的选择吸收性能和高温服役性能。有望作为中高温太阳能集热系统中的选择吸收涂层材料。

Metal-ceramic Bond Mechanism of the Co-Cr Alloy Denture with Original Rough Surface Produced by Selective Laser Melting

The porcelain fracture caused by low metal-ceramic bond strength is a critical issue in porcelain fused to metal（PFM） restorations. Surface roughening methods, such as sand blasting, acid etching and alkaline degreasing for the metal matrix are used to increase bond strength. However, the metal matrix of PFM processed by selective laser melting（SLM） has natural rough surface. To explore the effect of the original roughness on metal-ceramic bond strength, two groups of specimen are fabricated by SLM. One group of specimen surface is polished smooth while another group remains the original rough surface. The dental porcelain is fused to the specimens＇ surfaces according to the ISO 9693：1999 standard. To gain the bond strength, a three-point bending test is carried out and X ray energy spectrum analysis（EDS）, scanning electron microscope（SEM） are used to show fracture mode. The results show that the mean bond strength is 116.5 16 MPa of the group with rough surface（Ra= 17.2）, and the fracture mode is cohesive. However, when the surface is smooth （Ra =3.8）, the mean bond strength is 74.5 MPa _＋ 5 MPa and the fracture mode is mixed. The original surface with prominent structures formed by the partly melted powder particles, not only increases surface roughness but also significantly improves the bond strength by forming strong mechanical lock effect. Statistical analysis （Student＇s t-test） demonstrates a significant difference （p〈0.05） of the mean value of bond strength between the two groups. The experiments indicate the natural rough surface can enhance the metal-ceramic bond strength to over four times the minimum value （25 MPa） of the ISO 9693：1999 standard. It is found that the natural rough surface of SLM-made PFM can eliminate the porcelain collapse defect produced by traditional casting method in PFM restorations.

Preliminary Study on Some Properties of Co-Cr Dental Alloy Formed by Selective Laser Melting Technique

The surface condition, some properties and ion releasing behavior of cobalt-chromium （Co-Cr） dental alloy formed by selective laser melting （SLM） technique were investigated. Before porcelain fused firing, the surface condition of the Co-Cr alloy was observed using a scanning electron microscope （SEM）, and then the density and hardness were examined. After porcelain fused firing, the interface of porcelain and alloy was observed, and then the metal-ion release of the samples was tested. SLM technique provides Co-Cr alloy higher hardness than casting method. After degassing-oxidation procedure and porcelain fused firing, the interface of the alloy and porcelain showed excellent combination. Co ion was more than Cr ion released from SLM Co-Cr alloy, the amounts of Co and Cr ions were safe according to ISO security criterion. Considering the properties before and after porcelain fused sintering process, SLM technique is suitable for dental Co-Cr alloy restoration.

汽车用316L不锈钢激光/等离子喷涂Co-Cr3C2涂层组织与结合强度分析

为了提高汽车用316L不锈钢表面的机械强度,采用激光/等离子喷涂的方法制得Co-Cr3C2涂层,并与等离子喷涂层进行比较,试验测试分析了涂层的微观组织及沉积过程中的焰流形态。分析结果表明:采用等离子喷涂制得的涂层存在大量孔隙;利用激光/等离子喷涂制备的Co-Cr3C2涂层具有明显的冶金结合特征,涂层中的孔隙裂纹较少。以激光/等离子喷涂制备的Co-Cr3C2涂层孔隙率小于等离子喷涂层的,结合强度高。等离子喷涂形成了完全熔融、部分熔融以及没有熔融的3种颗粒;采用激光/等离子进行喷涂制得的涂层内没有产生尺寸较大的的未熔颗粒,达到了更好的铺展状态,形成了尺寸更小的晶粒,显著降低了涂层中的裂纹与孔洞数量,提高了涂层的表面硬度与耐磨性。

机械振动辅助激光熔覆WC/Co-Cr梯度涂层的显微组织

利用机械振动辅助激光熔覆技术在高速钢表面制备了WC/Co-Cr梯度复合熔覆层。借助光学显微镜(OM)、X射线衍射(XRD)和HMV-G21ST型显微硬度仪分析了各梯度熔覆层结合界面的微观结构、物相组成和显微硬度。结果表明,熔覆层主要由γ-Co、M23C6(M为Cr、Co、Mo)、W2C、M6C(Co3W3C、Fe3W3C)和少量WC相组成。复合熔覆层的晶粒尺寸实现梯度变化,白色针状、等轴晶弥散分布,提高了熔覆层的力学性能。在水平机械振动的作用下,熔覆层结合界面胞状晶带区较窄,垮界面连续生长的枝状晶提高熔覆层界面连接性。在机械振动作用下,熔覆层硬度呈均匀分布。

助剂种类对Co-Cr系多元催化剂制备碳纳米管的影响

为实现基于现有工业燃烧炉直接生长不同形态的碳纳米管,深入研究催化剂在火焰法制备碳纳米管中的作用机理具有重要的意义。以Co为活性组分、Cr为分散剂,采用浸渍法制备催化剂,研究Fe、Ni、Mo、Zn、Zr、V、W等助剂的添加对催化剂及碳纳米管性质的影响。利用扫描电子显微镜-能谱仪表征合成产物的形貌及含碳量,分析不同助剂对催化剂活性及碳纳米管形态的影响;运用X射线衍射仪、N_(2)吸附脱附及氢气程序升温还原表征不同催化剂的物理及化学性质,分析助剂对催化剂性质的作用机理。结果表明:添加Fe、V或Mo的催化剂都能够形成大量的簇状碳纳米管,Zn和Zr为助剂时催化剂无法生成碳纳米管;Cr与活性金属形成混合氧化物,作为结构促进剂,起到分散活性金属的作用;助剂通过改变混合氧化物与活性金属氧化物的比例,影响催化剂的活性;Fe、V和Mo的添加使得活性金属氧化物增加,提高了催化剂的还原活性,而适量混合氧化物起到的分散作用有利于形成生长碳纳米管的催化剂颗粒,从而促进碳纳米管簇的形成。

Co-Cr垂直记录软磁盘的研究

本文论述了用射频磁控溅射方法制备Co-Cr垂直记录软盘及其特性。Co-Cr介质的耐磨性与淀积期间的氩气压(PA_r)有很强的依赖关系。我们研制成功的3.5英寸聚酰亚胺/CoCr软盘,当写入电流为4mA时,读出幅度对于500 kHZ频率为320～350 mV,对于1 MHz频率为300 mV。分辨力为85％～93％。