从交通学角度谈城市有机形态的生成特征

城市作为有机体,已经被各种领域的学者从不同的角度提出并加以论证。美国芝加哥学派的城市社会学家,他们从人类生态秩序的高度去研究城市,指出城市有机体是“生态、经济和文化三种基本因素的综合产物,是人类文明的自然生息地。”著名建筑师卡米洛·西特(CamilloSitte)从建筑学角度提出“城市这个和谐一致的有机体是通过许多建筑单体恰当地相互协调而形成的。”现代城市规划理论家霍华德(E·Howard)和建筑学家沙里宁(E·Sarinen)

实木家具有机形结构设计研究

本文通过对实木家具有机形结构中的T型和L型构件的外观形式、连接规律及断开方式进行深入研究,总结出实木家具有机形结构的主要特征,认为其主要体现在实木椅类及架类中,常以杆件部件形式出现。以构件正视图中的截面边长为基准来判断节点过度圆弧的半径大小,确定了两类构件的圆弧过度半径的最佳视觉造型取值。通过相关计算,发现中间件的设计能极大提高木材利用率,并对结构节点强度问题进行了相关解决方案的阐述,为在实际生活中设计出有机形态实木家具产品提供了可靠的理论依据,从而实现实木家具结构节点的有机化。

浅议有机形立面在室内设计中的应用

在我国当今的室内设计领域中,有机形立面区别于几何立面而成为一种崭新的装饰手段被开始应用于室内设计之中,在有的放矢的使用中,有着其无法替代的优越性,并将成为当今室内设计的发展方向,但同时也应看到其也存在着阶段性的实际困难。作为设计师应把握时代的潮流,立足于现有条件,在实际工作中合理运用有机形立面这一设计语言,从而设计出优秀的室内设计作品。

一个生物相关单一手性二维金属有机鲱骨形分子网格:双-3-氨基-(S)-酪氨酸钴(英文)

The first example of homochiral two dimensional neutral cobalt? 3 amino (S) tyrosine (ATYR) coordination polymer, bis(3 amino (S) tyrosinato )cobalt? 1 was synthesized under the hydrothermal reaction of Co(ClO4)2 ·6H2O with ATYR in which 1 displays modest second harmonic generation response. CCDC: 214275.

视觉传播中图形语言的形态与意义

对图形语言的形态特性作了系统的分析,从图形与意义的结合方式入手,运用传播学理论对图形意义的形成作了较为深入的阐述。

“闭合形”与“开放形”的视觉空间表象浅析

线条是物象结构边缘的轮廓。在绘画中特指勾勒和描画物象轮廓的线,是绘画表现最常用的一种载体。在几何学上线条是指一个点任意移动所构成的图形痕迹。由物象边缘感知线条构成的形状分为"闭合形"和"开放形"两种,在视觉空间中具有不同的视觉空间表象,在画面中起着表现物象和分割画面空间的作用。不同"形"的表现方式会产生不同的视觉空间关系,直接影响视觉效果和画面空间,甚至会产生虚实空间和错觉空间。研究"形"的不同表现方式与画面空间的关系,将会在艺术创作中对画面空间的表现具有很好的指导作用。

Effect of Different Morphologies Induced by Solvent on ZIF-67 Derived Co@NC for Catalytic Phenol Hydrogenation

The Co@NC catalysts with different morphologies were prepared by two step process,solvent control growth and pyrolysis method.The polyhedral Co@NC-67P-450 catalyst has a relatively high CoNx content and exhibits excellent phenol hydrogenation activity(conversion 96.9%)at 160℃,3 MPa,which is higher than that of leaf shaped Co@NC-67L-450 catalyst(conversion 75.4%).We demonstrated Co_(3)O_(4)was reduced to the Co^(0)during the reaction.Moreover,CoNx species contribute to the superior hydrogenation activity of phenol.The Co-based catalysts can be easily recovered through the magnetic separation and performed the high stability.

解析阿尔瓦罗·西扎

葡萄牙著名建筑师阿尔瓦罗·西扎是当代最重要的建筑师之一。他的作品关注地方主义与现代建筑的结合,注重对场所精神的理解和表现,基本几何形与有机形的结合朴素、现实的材料运用,以地形学观念和考古学态度发掘建筑与场地的深层次联系。

Ridge Waveguide Electro-Optic Polymer Modulator with a New Kind of Corona Poled Crosslinkable Polyurethane

A polymer electro optic modulator has been fabricated with the functional layer acting as a kind of corona poled crosslinkable polyurethane. The three optical layers, namely waveguide, photolithography and oxygen are fabricated by spin coating. With the Reactive Ion Etching method, the ridge of the waveguide is constructed. With light at 1 31μm being fiber coupled to waveguide, the mode and the modulation properties of these devices are demonstrated in a micron control system.

Rapid Manufacturing of Metal Parts

As a key technology of rapid prototyping and manufacturing (RP&M), rapid manufacturing of metal parts is a target of RP&M. Introducing selective laser sintering (SLS), an important branch of RP&M, this paper gives a new method oriented on low power SLS system to fabricate metal parts. With this kind of technology, the mixture of metal and polymer powder is sintered first to get green part, then, after debinding and metal infiltration, dense parts are gotten. In the end, influencing factors of this technology are analyzed. At the same time, some applications are given.

感悟心灵的产品设计

市场机制下工业生产的特征是产品被成批大规模的复制、复制再复制,这已成为我们时代的最大特征。这种复制模式已然侵入我们生活中每一个感觉细胞。

漫谈响器与乐器

绝大多数的乐器所发出的声响是乐音,是悦耳的,用来表现音乐。我们这里谈的响器特指音响器材,当然,这种音响器材主要用于再现音乐。 响器不同于乐器。乐器用来表现音乐,而响器用以再现音乐。然而也有例外,电子合成器本身是现代化的响器。

Role of Organic Matter in Formation and Stability of Aggregates in Mulberry Plantation Soils

The role of organic matter in the formation and stability of soil aggregates in mulberry plantation in the Hang-Jia-Hu Plain, northern Zhejiang Province, was evaluated in this study. A positive correlation was found between water-stable aggregate contents and organic matter contents in the mulberry plantation soils, which supported the hypothesis that organic matter was the main cementing agent in formation of aggregates. A close correlation was also found between stability of aggregate and organic matter contents. Regression analysis showed that total nitrogen content was also an indicator of water-stable aggregate content and stability. The aggregate size distribution indicated that the water-stable aggregates 1--0.25 mm in diameter were the major component of the aggregates in the mulberry plantation soils. The organic matter contents of aggregates ranging from 5 to 0.25 mm in diameter increased with the decrease of aggregate sizes, and the aggregates 1-0.25 mm in diameter had the maximum organic matter content.

Formation and Water Stability of Aggregates in Red Soils as Affected by Organic Matter

The water stability of aggregates in various size classes separated from 18 samples of red soils under different managements, and the mechanisms responsible for the formation of water-stable soil aggregates were studied. The results showed that the water stability of soil aggregates declined with increasing size, especially for the low organic matter soils. Organic matter plays a key role in the formation of water-stable soil aggregates. The larger the soil aggregate size, the greater the impact of organic matter on the water stability of soil aggregates. Removal of organic matter markedly disintegrated the large water-stable aggregates (> 2.0 mm) and increased the small ones (< 0.25-0.smm) to some extent, whereas removal of free iron(aluminium) oxides considerably destroyed aggregates of all sizes, especially the < 0.25-0.5 mm classes. The contents of organic matter in water-stable aggregates increased with aggregate sizes. It is concluded from this study that small water-stable aggregates (< 0.25-0.5 mm) were chiefly cemented by Fe and Al oxides whilst the large ones (> 2.0 mm) were mainly glued up by organic matter. Both free oxides and organic matter contribute to the formation and water stability of aggregates in red soils.

Hierarchical cobalt phenylphosphonate nanothorn flowers for enhanced electrocatalytic water oxidation at neutral pH

Cobalt-based phosphate/phosphonates are a class of promising water oxidation catalysts at neutralpH.Herein,we reported a facile hydrothermal synthesis of various nanostructured cobalt phe-nylphosphonates.It is found that the number of hydroxyl group of structure-directing reagent iscrucial for the construction of 3D hierarchical structures including hierarchical nanosheet flow-er-like assemblies and nanothorn microsphere.These samples were characterized by scanningelectron microscopy,transmission electron microscopy,X-ray diffraction,infrared,and X-ray pho-toelectron spectroscopy techniques.They can act as highly efficient electrocatalysts for the oxygenevolution reaction at neutral pH.Among these,hierarchical cobalt phenylphosphonate nanothornflowers present excellent performance,affording a current density of 1 mA cm^-2 required a smalloverpotential of 393 mV.This work offers a new clue to develop high-performance metal phospho-nate/phosphate catalysts toward electrochemical water oxidation.

Effect of Anodization Parameters on Morphologies of TiO2 Nanotube Arrays and Their Surface Properties

This work presents the potentiostatic anodization study of titania nanotube array films fabricated in fluoride-based organic electrolytes including DEG （diethylene glycol） and EG （ethylene glycol）. The work focuses on the effect of important anodization parameters such as applied voltage, anodization time, and electrolyte type on nanotube morphologies and corresponding surface properties. Depending upon unique nanotube formation structures obtained from each anodizing electrolyte, wettability of the nanotube array layer has been determined by means of the contact angle measurement. The EG nanotube array films with close-packing cell orientation are found to show hydrophilic behavior. While the well separated DEG nanotube array films are found to exhibit hydrophobic behavior, with the characteristics of more discrete, wider cell separation obtained through manipulating the electrolyte conditions and the fabrication techniques offering considerable prospects for developing the superhydrophobic sample surface. Such formation structures observed for the DEG fabricated nanotube is believed to play a prominent role in determining the surface wettability of the anodized nanotube array film. The achieved result in this work is anticipated to pave the way to other relevant applications, where interfacial properties are critically concerned.

Effects of Plant Types on Physico-chemical Properties of Reclaimed Mining Soil in Inner Mongolia,China

A field experiment was conducted in Jungar Banner,Inner Mongolia,China to study the effects of plant types on the physical structure and chemical properties of open-cast mining soils reclaimed for 15 years,and to analyze the triggering factors of the soil formation.Results indicate that plant types affect soil-forming process especially in the upper layer (0-20 cm),and the spatial structure of reclaimed plant is the main reason for variability of the soil-forming process.In the upper soil layer at the site reclaimed with mixed plants,the concentrations of soil organic matter (SOM) and soil organic carbon (SOC) are the highest,and they were significantly higher at the sites reclaimed with Leymus chinensis,Caragana sinica,which is mainly due to a large amount of litter fall and root exudation in herbages and shrubs.However,the concentrations of SOM and SOC in the soils at the reclaimed sites are quite low comparing with those in local primary soil,which indicates the importance of using organic amendments during the ecological restoration in the study area.

Degradation Process of Coated Tinplate by Phase Space Reconstruction Theory

The degradation process of organosol coated tinplate in beverage was investigated by electrochemical noise (EN) technique combined with morphology characterization.EN data were analyzed using phase space reconstruction theory.With the correlation dimensions obtained from the phase space reconstruction,the chaotic behavior of EN was quantitatively evaluated.The results show that both electrochemical potential noise (EPN) and electrochemical current noise (ECN) have chaotic properties.The correlation dimensions of EPN increase with corrosion extent,while those of ECN seem nearly unchanged.The increased correlation dimensions of EPN during the degradation process are associated with the increased susceptibility to local corrosion.

Characterization of NOM and THM formation potential in eutrophic reservoir water

Resin adsorption technique with XAD-8 and XAD-4 was used to characterize the raw water from Erlong reservoir in Jilin province of China. The NOM chemical composition sequences of four organic fractions in the raw water, from high to low, are fulvic acid （FA） fraction, hydrophilic non-acid （HPINA） fraction, hydrophilic acid （HPIA） fraction, and humic acid （HA） fraction. Experimental results show that FA is the main precursor of THMFP among the four organic fractions. However, HA or hydrophobie acid exhibits the highest chlorination activity in forming THMs. It is also found that the value of FI/DOC or SUVA and the specific THMFP have better positive correlation. It is implied that certain source water has unique nature of NOM and DBPs.