AGATE计划与美国通用航空复合材料

通过先进通用航空技术实验(AGATE)计划,美国为通用飞机开发了一系列可负担的新技术、标准以及验证方法。着重阐述了其中的复合材料部分,具体包括"AGATE方法"的内容与特点,各复合材料制造商根据该方法研发、鉴定的AGATE材料,以及用户对这些材料的使用和评价。

Heterogeneous Photocatalytic Degradation of Dyes in Water/Alcohol Solution Used by the Brazilian Agate Industry

The agate dyeing industry has been commonly seen as a high-pollution industry. Dyeing wastewater treatment is considered one of the most important categories for water-pollution control, because of its intense colour and the high concentration of organic contaminants. Most dyes used in the process present minimal biodegradability due to aromatic organic compounds in their structure. Using a photocatalytic reactor, experiments were carried out to study the decolorization of a water solution containing 8% ethylic alcohol and 200 mg L−1 of the dye Rhodamine B (RhB), the most difficult colorant to degrade among the used by the agate industry. The best conditions were further applied to treat the same agate water/ethyl alcohol solution containing a mixture of 200 mg L−1 of Rhodamine B (RhB), Crystal Violet (CV), Brilliant Green (BG), and Blood Red (BR). All the experiments were performed in a 2 L reactor equipped with ultraviolet (UV) lamps, at a wavelength of 365 nm, with powdered TiO2 or ZnO as the catalyst. The results indicated that the optimal decolorization conditions were attained with 2.5 g L−1 of the catalyst at pH 10 and an irradiation time of 80 min. The process resulted in complete degradation of CV, BG and 80% - 90% degradation of RhB and BR. The catalyst ZnO presented a performance somewhat better than TiO2. It is possible to conclude that the process of heterogeneous photocatalysis is effective for decolorization of water streams from the agate industry.

Chemical Treatment Effects of Blue, Yellow and Green Colors with Heating Methods on Agates of Cheshme Shoor Area, Qom, Iran

The Cheshme Shoor area is located in northeast of Qom which is a part of central Iran geo-structural zone. The rocks of the area are mainly volcanic rocks that include Eocene acidic tuffs and ignimbrites. Different types of agate, jasper and amethyst formed as secondary cavity filling deposits in variety of colors and shapes in the area. In this paper, chemical treatments by different chemicals with heating methods in 15 different procedures have been conducted on one agate sample of the study area which has been divided into smaller pieces by milling. Dyeing with these methods has been done in blue, yellow and green colors. Excellent results have been achieved in 9 processes, significant but not expected results have been illustrated in 4 processes and 2 processes have been represented no changes. Produced colors have had a natural and light color which makes them more desirable to the consumers but totally these dyeing processes illustrate that concentration of the solution is effective in coloring and solutions with more concentrations produce stronger color.

Dielectric behaviors at microwave frequencies and Mossbauer effects of chalcedony, agate, and zultanite

In this study, dielectric properties within 8-12 GHz microwave frequencies, inductively coupled plasma-atomic emis- sion spectrometry, Fourier transform infrared spectrometry, synchronized two thermal analyses, and 57Fe Mossbauer spectroscopy analysis of chalcedony, agate, and zultanite samples from Turkey are presented. Agate and chalcedony show the same nine vibrational absorption peaks obtained unlike zultanite from FTIR spectra in the 350 cm-1 to 4000 cm-1 range, ε＇ values of chalcedony, agate and zultanite derived at 10.5 GHz were 4.67, 4.41, and 7.34, respectively, eI and e~ values of the studied samples at the microwave frequencies are related to the percentage weight of their constituent parts in their chemical compositions. 57Fe Mossbauer spectroscopy results confirm the existence of iron-containing islands in the crystal structure of zultanite, agate, and chalcedony samples, equipped them with magnetic features typical for magnetic nanoparticles including superparamagnetism. The presence of iron-containing islands significantly affects the magnetic, dielectric, and optical properties of studied samples that are not observed for pure minerals without any foreign inclusions.

Environmental Issues on the Industrial Processing of Raw Agate

Agate geodes are treated and stained for the production of handmade artifacts and jewelry, which greatly increases their aggregate value. Unit operations involve storage, sorting, cutting, crushing, dyeing, polishing, washing, and finishing. Substantial amounts of waste materials are produced, which include agate pieces, powders (with or without oils), and wastewaters from organic and inorganic staining procedures. The aim of this work was to quantify the amounts of these waste materials, their characteristics, and possibilities for reuse or recycling in other productivity sectors in the context of the second decade of the 21st century. A review of the theme was carried out and possibilities were analyzed in the light of classic and new technologies.

Treatment of Agate Dyeing Wastewater Using an Immobilized Gel Mixture with Nano-Fe_(3)O_(4) Sulfate-Reducing Bacteria

To solve the problems of high Cr^(6+),Cr^(3+),SO_(4)^(2-)and H+concentrations,pollution and processing costs associated with agate dyeing industrial drainage,we prepared an immobilized gel mixture for the treatment of such drainage on the basis of microbial immobilization technology.The immobilized gel mixture was composed of sulfate-reducing bacteria(SRB),corn cob,and nano-Fe_(3)O_(4)(nFe_(3)O_(4)).We used a single-factor experiment to determine the optimal dose of each matrix component.We analyzed the mechanism underlying the treatment of agate dyeing wastewater with an immobilized gel mixture by X-ray diffraction and scanning electron microscopy detection.The results of the single-factor test showed that the best treatment was obtained under the following conditions for each matrix component:SRB mass percentage of 30%,nFe_(3)O_(4) dose of 3%,and corn cob mesh size of 100 and dose of 3%.On this basis,we conducted an L9(34)orthogonal experiment to determine the optimal proportion of each matrix component.The results showed that the best treatment was obtained when the gel mixture met the following conditions:SRB mass percentage of 40%,nFe_(3)O_(4) dose of 4%,and corn cob dose of 1%and mesh size of 100.Accordingly,the SO_(4)^(2-),Cr^(6+)and Cr^(3+)removal rates from the agate dyeing drainage were 70.54%,84.75%,and 73.80%,respectively;the total Fe and chemical oxygen demand releases were 1.086 mg·L^(-1)and 1104 mg·L^(-1),respectively;and the pH was 6.27.The gel mixture had the best treatment effect on agate dyeing wastewater under this composition ratio.

逊克县玛瑙产业发展对策研究

黑龙江省黑河市逊克县的玛瑙产业具备资源储备富集、文化底蕴丰厚、发展历史悠久、产品丰富多样等特点,近年逊克县为发展玛瑙产业制定了明确的发展规划,产业知名度得到不断提升,但同时逊克县的玛瑙产业发展也面临着资源管理难度较大、市场秩序亟待规范、产业链条还未形成等困境,为此应通过将玛瑙矿权下放至地方,增强招商引资力度,利用市场融资支持重点项目建设,提升从业人员素质,培育本地乡土人才等路径进一步加快发展逊克县玛瑙产业。

玛瑙球磨法制备微米介孔球状材料催化剂及其应用

利用玛瑙球磨法合成出一种负载酸催化剂三氟甲磺酸铜的微米级球状介孔材料,研究了催化剂的微观结构、微观形貌和催化反应活性。通过对环己酮和乙二醇的催化反应表明,样品作为催化剂具有较高活性。初次使用时环己酮转化率为97%,环己酮缩酮的选择性为99%,经过4次使用后依旧具有较高催化活性-环己酮转化率为96%。环己酮缩酮的选择性为99%,远远高于工业用硫酸催化剂的环己酮转化率(90%)和环己酮缩酮的选择性(91%)。

张家窑林场出土玛瑙的谱学特征与加工工艺研究

张家窑林场出土了四个玛瑙管珠文物,为研究出土玛瑙的特征以及加工工艺,使用激光显微拉曼光谱、超景深显微镜、X射线荧光光谱、X射线探伤等技术观察并分析了张家窑林场辽墓出土的玛瑙串饰,并对其原料来源、加工工艺和保存状况进行了讨论。结果表明,样品的主要组成为α-石英和斜硅石,致色矿物为针铁矿、赤铁矿和六方纤铁矿,样品的拉曼谱带的积分比为4.18,根据函数曲线估算样品的斜硅石相对含量约为20%,斜硅石与α-石英特征峰面积之比(A_(501)/A_(462))约为0.22~0.3,推测玛瑙为可能为北红玛瑙。X射线探伤结果表明,管珠的加工工艺为对向钻孔,加工工具可能为实心钻具加少量解玉砂,样品表面受沁情况比较严重,对张家窑1号棺棺内土壤进行研究后发现木棺内土壤为中性土,对管珠的影响较小,结合目前对玉器老化的相关研究,推测玛瑙的受沁情况与原料质量以及样品风化有关。

滇中禄劝地区三叠系舍资组矿产资源勘查新线索

通过1∶5万区域地质调查及典型剖面研究,在滇中禄劝地区三叠系舍资组底部识别出一套厚约10~100 m不等的含南红玛瑙砾岩层。南红玛瑙颜色主要呈橙红、大红色及紫红色等,少数呈柿子红,椭圆状、圆状,表皮干净,无杂质,总体成色较好,具有较好开发利用价值。物源对比和分析表明,舍资组南红玛瑙物源来自峨眉山玄武岩中的杏仁体。由于峨眉山玄武岩分布广泛,三叠系舍资组底部南红玛瑙的发现,为滇中地区寻找此类资源提供了新线索和找矿方向。此外,通过对舍资组泥页岩有机碳和镓等关键金属含量分析发现,有机碳含量相对较高(total organic carbon,TOC=2.83%~9.25%),有机质成熟度也较高,处于过成熟阶段;镓、铌(钽)-锂等关键金属也有较高程度富集,暗示该层位还具有良好的页岩气和关键金属找矿潜力。舍资组中植物化石显示,其沉积古气候是潮湿湿润的,有利于蕨类植物的生长繁盛,这为页岩气的形成提供了物源,也为关键金属的富集提供了有利条件。

基于AGAT的泰康之家粤园记忆花园评价分析

非药物治疗逐渐成为治疗阿兹海默症的主要途径,该类患者因其心理不安、行为激越等特征往往需要一个专类康复花园。现阶段该类康复花园因空间设计或功能设置无法适应需求,而导致其徒有空间却不能发挥实际功效。AGAT评估量表为阿兹海默症康复花园提供了评估框架,用于评估一个花园是否包含了成功的阿尔茨海默症康复花园所必须设计元素与品质。本研究使用AGAT评估量表对泰康之家粤园康复花园进行评估,并从功能支持、社交与隐私、感官刺激3个方面分析其存在的问题,展望AGAT与康复花园今后的研究方向。

高职院校推进市域产教融合联合体的路径研究——以阜新玛瑙产业为例

玛瑙产业是阜新经济转型的重点产业。阜新市各职业院校应精准定位,推进阜新玛瑙产业产教融合联合体的发展。具体路径是:主动推进玛瑙产业市域产教融合联合体的构建;建立产业学院,进行专业群建设;探索多元化办学体系;打造“双师型”教师队伍;建立“岗课赛证”一体化人才培养模式;进行教材改革;做好招生就业工作;创新国际交流与合作机制。

四川省美姑县瓦西村一带南红玛瑙矿产出特征及形成过程分析

四川省美姑县瓦西村一带南红玛瑙主要产于上二叠统宣威组的紫红色泥质、砂质砾岩中,底板为灰绿色硅质砾岩,顶板为紫红色泥岩、粉砂岩等。该矿区玛瑙颜色主要有柿子红、玫瑰红、樱桃红、冰飘红、红白料、白料等,南红玛瑙的块度多介于0.5~5 cm之间,半透明不透明状,油脂光泽,断面呈贝壳状。玛瑙矿呈椭球状或扁球状分布于砾岩之中,其分布不甚均匀。玛瑙砾石质地坚硬而脆,敲击易碎裂。晚二叠世初期,强烈的岩浆活动导致大规模的玄武质岩浆喷溢地表,形成大面积分布的峨眉山玄武岩,岩浆期后富硅质热液在玄武岩的气孔中逐次沉淀成玉髓等矿物,最终形成玛瑙;晚二叠世晚期,随着峨眉山玄武岩的风化与剥蚀,岩石中的玛瑙被水流搬运、迁移,呈砾状在湖、沼地段沉积,堆积于宣威组底部,形成含玛瑙矿砾岩层。

基于HSB颜色空间的南红玛瑙颜色特征及定量分级研究

近些年,南红玛瑙在珠宝市场上,价格不断上升。颜色作为影响南红玛瑙质量评价的最主要因素,南红玛瑙市场价格的高低与其密切相关,但目前国家尚未出台南红玛瑙相关的分级标准。为了使南红玛瑙颜色的评定过程更加客观、科学和规范,开展了南红玛瑙颜色分级的相关研究。利用灯箱和相机获取样品颜色图片,基于HSB颜色空间,对采集到的南红玛瑙颜色图片进行颜色量化。利用Origin和SPSS软件,对所得颜色量化数据的色调、饱和度和明度(HSB)参数进行统计分析。结果表明,在95%置信区间内红色系南红玛瑙的色调(H)主要分布于[3.20°,17.52°]区间内;饱和度(S)主要分布在[63.82%,92.69%]区间内;明度(B)主要分布在[42.97%,75.37%]区间内,统计结果与南红玛瑙颜色的肉眼观察特征一致。结合肉眼观察特征,借助二阶聚类分析,对红色系南红玛瑙的颜色分级进行了尝试:将色调分为红(R)、橙红(oR)、红橙(rO)3个类别;将饱和度分为浓(S1)、中(S2)、浅(S3)3级;将明度分为亮(B1)、中(B2)、暗(B3)3个级别。对于不同颜色品种,在饱和度方面,柿子红、水红、锦红大于其他品种,冰红和玫瑰红为中等,冰粉的为最低;在明度方面,冰橘和水红最高,柿子红、冰红和冰粉中等,锦红和玫瑰红最低。以上述数据分布特征为基础,结合颜色分级结果,对市场中出现的南红玛瑙的不同颜色名称进行科学的区分并给出推荐的HSB数值参考范围。

内蒙古阿拉善地区绿色戈壁玛瑙的宝石学特征与致色成因研究

内蒙古阿拉善地区经历数亿年的地质活动,产出颜色丰富且结构致密的戈壁玛瑙。通过常规宝石学测试、偏光显微镜及扫描电镜观察、X射线粉晶衍射、电子探针、红外光谱及紫外-可见光-近红外分光光度计等测试分析方法对绿色戈壁玛瑙的宝石矿物学特征及致色成因进行了深入研究。肉眼观察,阿拉善绿色玛瑙呈深绿色至褐绿色,微透明至不透明,相对密度、折射率、摩氏硬度等均符合石英质玉石的特点。偏光显微镜观察,绿鳞石富集于表层,并向内部呈放射状生长;方解石与石英均为隐晶质结构。扫描电镜观察,绿鳞石呈颗粒状分布于石英及方解石之间。X射线衍射分析结果表明,绿色戈壁玛瑙的物相组成主要为石英、方解石和绿鳞石。电子探针分析结果表明绿鳞石的主要化学组成为SiO_(2)、FeO、Al_(2)O_(3)、K_(2)O和MgO。红外光谱分析也显示存在绿鳞石对应基团的特征峰。表层绿鳞石在紫外-可见光-近红外分光光度计下显示出Fe^(2+)与Fe^(3+)的特征光谱,Fe^(2+)与Fe^(3+)之间的电荷转移是其呈现绿色的主要原因。绿鳞石是阿拉善绿色戈壁玛瑙的主要致色矿物。

“来通”——兽首玛瑙杯的名物考释

1970年出土于西安何家村的兽首玛瑙杯,是迄今为止唐代唯一的俏色玉雕,选用极罕见的缠丝玛瑙琢雕,被国家文物局列为禁止出境展览文物。“来通”起源于希腊,广泛流行于欧亚大陆,在贵族酒宴、集体筵席或是祭祀典礼上使用。从“来通”的演化脉络、传播过程等可见何家村兽首玛瑙杯的珍贵价值。研究中国发现的“来通”此类器物,不仅是探讨中西文化交流的需要,而且在一定程度上对亚洲文物的交流也提供了重要的鉴定参考或者依据。

新疆黑山筋脉玛瑙的分类及显微特征

筋脉玛瑙作为石英质玉石中一个尤为特殊的品种,深受消费者喜爱。近年来自新疆维吾尔自治区喀什地区巴楚县黑山附近产出的筋脉玛瑙以其鲜艳丰富的颜色、奇峻多样的形态,成为最受欢迎的筋脉玛瑙品种之一。对150余件新疆黑山筋脉玛瑙样品进行常规宝石学测试并分类研究,使用偏光显微镜观察其结构特征,分析了“筋脉”以及其它特殊表面结构的微观结构成因。结果显示,黑山筋脉玛瑙根据颜色色系分为:灰绿-墨绿色系、橙红-深红色系、橙黄-土黄色系、乳白-乳黄色系、黑灰色系五类;按照表面结构特征分为:细筋脉、粗筋脉、内筋脉、外筋脉和纯筋脉和“鱼籽”,分类依据涵盖“筋脉”的粗细和分布密集程度、“筋脉”在玛瑙整体的位置以及部分特殊结构如环形突起和球粒状突起。显微结构特征显示,黑山筋脉玛瑙的主要为隐晶质结构、隐晶质纤维结构,其中“筋脉”和“鱼籽”的外部结构特征对应其内部的隐晶质纤维结构(平行纤维结构、纤维放射结构);而基体(“肉”质)部分基本由隐晶质结构组成。结合拉曼光谱测试可知,黑山筋脉玛瑙的主要矿物成分为α-石英,次要矿物为斜硅石,部分样品中的红色球粒状杂质矿物为赤铁矿。

ICP-MS分析汝瓷釉料中玛瑙和燧石的矿物元素

采用电感耦合等离子体-质谱法(ICP-MS)对汝瓷釉料玛瑙中17种矿物元素Al、As、Ba、Ca、Cr、Cu、Fe、Hg、K、Mg、Mn、Na、Pb、Se、Sr、V、Zn和燧石中14种矿物元素Al、Ba、Ca、Cr、Cu、Fe、Hg、K、Mg、Na、Pb、Sr、V、Zn进行分析测定.玛瑙中17种矿物元素的相对标准偏差为0.52%~4.58%,准确度范围为89.70%~101.03%;燧石中14种矿物元素的相对标准偏差为0.52%~4.40%,准确度范围为89.70%~101.03%.实验结果表明:玛瑙和燧石中Al、Ca、Fe、K、Mg、Na 6种矿物元素的含量均较高,其中,燧石中Fe的含量高于玛瑙中Fe的含量,玛瑙中其他5种矿物元素的含量均高于燧石中的含量.

猕猴桃体外快繁条件优化及高效再生体系的建立

为进一步优化‘红阳’猕猴桃(Actinidia chinensis cv.Hongyang)组织培养育苗技术体系,采用‘红阳’猕猴桃无菌组培苗的茎尖和叶片为材料,以ZT 1.5 mg·L^(-1)为外源激素,筛选适宜的基本培养基,并研究不同外源激素及组合对‘红阳’猕猴桃间接、直接器官发生及植株再生的影响。结果表明,适合‘红阳’猕猴桃生长的基本培养基为OM。在OM+2.0 mg·L^(-1)6-BA+0.5 mg·L^(-1) NAA+0.01 mg·L^(-1)2,4-D培养基中,叶片愈伤诱导率为100%,不定芽发生系数为3.68;而带叶茎尖在OM+1.5 mg·L^(-1)6-BA+0.5 mg·L^(-1) NAA+1.0 mg·L^(-1) KT培养基中培养60 d后,通过直接器官产生基茎丛生芽,其增殖系数可达7.65。试管苗适宜的生根培养基为1/2 OM+0.5 mg·L^(-1) NAA,60 d后平均不定根数为4.87,驯化移栽后成活率为90%以上。选择出了适宜‘红阳’猕猴桃生长的基本培养基,解决了组培苗叶片黄化、植株矮小和畸形的问题,且大幅提高了增殖系数。优化了‘红阳’猕猴桃的人工快繁体系,可为猕猴桃其他品种的研究提供参考。

四川凉山南红玛瑙结构特征及成因探究

结合矿区实地考察及偏光显微观察、X射线粉晶衍射、拉曼光谱等测试分析对四川凉山南红玛瑙的结构特征及其成因等进行了探究。研究结果表明,四川凉山南红玛瑙主要分为致密块状、条带状、“水晶芯”三种结构。凉山南红玛瑙成矿初期多形成致密块状结构,伴随岩浆喷发,岩浆中的挥发性流体、高温的大气水与母岩反应,球粒状玉髓开始生长形成隐晶质的致密块状结构玛瑙。隐晶质玉髓和晶质石英之间的过渡区域易形成平行、环状条带结构。条带的颜色会因热液中周期性致色元素的不同有所差异,条带的宽窄也会因二氧化硅热液喷入的量不同而呈现出厚薄不一。单个条带内,粗粒、低结构缺陷的石英与细粒、高结构缺陷的玉髓、斜硅石交互生长的情况会导致局部有两种或三种结构交互出现。“水晶芯”结构的形成与温度升高二氧化硅热液降温至结晶温度的时间增长及形成后期热液浓度降低以致晶核减少有关,Al元素的存在也促使了水晶芯的形成。