slag sand 中文意思是什麼
slag sand
解釋
礦砂-
The quality of furan sand castings is usually better than clay sand castings, however, some defects are also very easy take place with furan sand castings such as blow hole, metal penetration, veining, cracking, slag inclusion, hardness too low, surface recarburation, surface sulphuration, nodularity degeneration etc, which were usually caused by improper raw materials selection, improper method design, incorrect moulding or / and core - making
摘要呋喃樹脂砂鑄件質量一般比黏土砂鑄件好,但如果原材料選擇、工藝設計、造型和制芯操作不當,也會產生氣孔、粘砂、脈紋、裂紋,夾渣、硬度不足、滲碳、滲硫和球化不良等鑄造缺陷。 -
Cold shots develop from low casting temperature, and dirt spots result from pickup of sand or slag by molten metal
較低的鑄造溫度會形成冷疤,熔化金屬出現的沙粒或爐渣的累積會導致污點。 -
This product is extensive to used for all kinds of minerals, cement, fire - proof materials, aluminum soil the familiar anticipating, the emery, glass raw materials, mechanism building sand, stone materials, sand metallurgy of slag. it has the higher yield effect than other types, especially used to crush harder and causticity materials such as carborundum, emery, magnesium sand
Pcl直通沖擊式破碎機制砂機特別適用於製作建築砂石磨料,耐火材料,水泥石英砂鋼砂爐渣粉銅礦石鐵礦石金礦砂混凝土骨料瀝青骨料等多種硬脆物料的細碎與中碎,是高效,節能的碎石制砂設備。 -
It is reinforced that mortar produced by the system of phosphor slag ? lying ash ? ement or replacing phosphor slag by yellow sand has never been reported in home and abroad
利用磷渣、粉煤灰和水泥配製干拌砂漿,以及用磷渣代替黃砂配製砂漿國內外均未見報道。 -
( 2 ) according to national building mortar design regulations ( nbmdr ), and applying to scientific avenue of orthogonal design experiment, performance and impact factors of dry - mortar produced by localizable phosphor slag, flying - ash, ordinary silicate cement, and yellow sand
( 2 )根據國家建築砂漿設計規程,應用正交試驗分析等科學方法,試驗研究了用本地磷渣、粉煤灰、普通硅酸鹽水泥、黃砂等原料配製的干拌砂漿性能及其影響因素。 -
Conclusion is drawn that 150 # mortar can be manufactured, adopting industrial waste slag, yellow sand and cement after which are ground, and with the proportion design of cementitious component : sand of 1 : 4, cement : phosphor slag : flying - ash : gypsum of 30 : 45 : 23 : 2 in cementitious materials, and cement : mortar of 6 percents. it leads economical, social, and environmental benefit
試驗結果表明,採用昆明本地的工業廢渣、黃砂和水泥,通過適當的細磨、復配技術,在膠:砂= 1 : 4 ;膠凝材料中水泥:磷渣:粉煤灰:石膏= 30 : 45 : 23 : 2 ,干拌砂漿中水泥的質量只佔6的條件下,可以配製出150 #砂武漢理工大學工程碩士學位論文漿。 -
( 3 ) the feasibility of manufacturing dry - mortar is discussed, replacing yellow sand with phosphor slag. ( 4 ) the feasibility of producing dry - mortar is analyzed, replacing sulphur aluminate low alkalinity cement by silicate cement. ( 5 ) study impact of the water quantity of sand on the strength of dry - mortar, and it is concluded that water quantity of sand can influence strength effectively and must be controlled seriously in production
( 3 )試驗研究了用磷渣替代黃砂配製干拌砂漿的可行性; ( 4 )試驗研究了用硫鋁酸鹽低堿水泥替代硅酸鹽水泥配製干拌砂漿的可行性; ( 5 )試驗研究了砂含水量對干拌砂漿影響,發現砂的含水量對干拌砂漿的強度影響較大,在生產中必須嚴格控制砂的含水量。 -
In the study, a new kind inorganic anchoring material was developed, which consisted of special binder and aggregate, the former is made from clinker, blast furnace slag and compound admixture, and the later is superfine sand. effects of the factors such as clinker / slag, binder / sand, solution / binder and constituent of solution on the strength, set - time and contraction of the matrix made from the anchoring material were studied
上述分析研究得出以下結論:新型無機錨固材料具有早強、快硬、高強特點, 10h .抗壓強度可達26 . 5mpa , 365天強度可達144 . 0mpa ;初凝時間在40min . 3h .之間,且初終凝時間差在15分鐘以內;在保濕條件下具有微膨脹性,膨脹率在0 . 5 %以內。 -
In this paper, the so preparing self - compacting concrete with low and middle strength using super fine mountain sand artifical sand and phosphorus slag is studied systemically. through the study the influence of the shape, the proportion of the dust and the grade of sand to the workability and the mechanical property of self - compacting concrete, it is found that super fine mountain sand artifical sand are not suit to prepare low and middle strength self - compacting concrete, but when they are combined and the additive and assistant band material are used, c20 - c40 high performance self - compacting concrete is prepared ; the corresponding additive is developed to solve the delamination caused by the low proportion of banding material ; the evaluating system for the workability of low and middle strength self - compacting concrete is built ; the controlling method for production, construction and curing was set up. and the result of the research is applied into several projects
通過分析特細山砂和機制砂的顆粒形態、粉末含量、顆粒級配等特性對自密實混凝土的工作性能和力學性能的影響,發現特細山砂、機制砂不宜單獨用於配製中低強度等級自密實混凝土,宜將特細山砂和機制砂進行合理復配,並選擇合適的外加劑和礦物摻合料,優化配合比設計,可生產c20 c40中低強度等級自密實高性能混凝土;研製開發出了具有高效減水、保塑、抗離析功能的外加劑,有效解決了中低強度等級自密實混凝土由於膠凝材料用量少而出現的離析、泌水問題;應用正交設計方法,對因素和水平進行合理選擇,確定了生產中低等級自密實混凝土的最優配合比;建立了中低強度等級自密實混凝土的工作性評價體系;提出了生產、施工及養護的質量控制技術方法。 -
Secondly, preparation of reactive powder concrete with air quench steel slag and its performance are mainly studied through experiment. the results show that : ( 1 ) when binder - to - sand ratio is 1, silica fume percentage of binder is 15, and steel fiber percentage in volume is 4, reactive powder concrete prepared can get best overall performances
其次,作者主要對鋼渣活性粉末混凝土配製及其性能進行了試驗研究,結果表明: ( 1 )膠砂比為1 : 1 ,硅灰摻量為15 ,鋼纖維摻量為4時所配製的活性粉末混凝土的綜合性能比較理想。 -
In order to decrease the unit cost of reactive powder concrete and increase the utilization of steel slag, the author, considering the raw materials in our contry and basing on the domestic and international research results, studies on preparation of reactive powder concrete using air quench steel slag replacing the quartz sand as aggregate through experiment
本文作者針對我國的原材料情況,在國內外的研究成果的基礎上,立足於降低活性粉末混凝土的配製成本和提高鋼渣的利用水平,使用風淬鋼渣代替石英砂作集料來配製活性粉末混凝土進行了試驗研究。
分享友人