畢業(yè)設(shè)計-DTⅡ型皮帶運輸機設(shè)計【含CAD圖紙源文件】
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畢業(yè)設(shè)計(論文)評閱人評語
[主要對學(xué)生畢業(yè)設(shè)計(論文)的文本格式、圖紙規(guī)范程度,工作量,研究內(nèi)容與方法,實用性與科學(xué)性,結(jié)論和存在的不足等進行綜合評價]
評閱人: (簽名)
年 月 日
評閱人評定成績:
畢業(yè)設(shè)計(論文)中期報告
院(系)
機電工程學(xué)院
班級
學(xué)生
姓名
指導(dǎo)
教師
課題名稱:DTⅡ帶式運輸機設(shè)計
課題主要任務(wù):根據(jù)設(shè)計技術(shù)指標(biāo),在保證膠帶機的額定輸送量和輸送帶帶寬,設(shè)計保證計算準(zhǔn)確,各部件的工作正常的前提下。進行受力分析確定帶式運輸機的整機形狀和選擇部件及校核,然后進行膠帶機整機及其部件設(shè)計,繪制三張以上圖紙。
1、簡述開題以來所做的具體工作和取得的進展或成果:
本人自開題以來根據(jù)給定的課題要求去圖書管借閱手冊、相關(guān)設(shè)計資料和相關(guān)網(wǎng)站(如超星圖書館,中國期刊網(wǎng)等等)查閱了大量的相關(guān)書籍和資料,查到了很多對本課題有用的資料,同時我多次深入衡陽運輸機械廠實地考察學(xué)習(xí),熟悉了運輸機的零部件形狀和技術(shù)要求、大概尺寸;也得到衡陽運輸機械廠的相關(guān)技術(shù)員的悉心指導(dǎo),為本課題的初級設(shè)計提供了可靠的參考,也為下一步的設(shè)計奠定了基礎(chǔ);
現(xiàn)基本上完成了設(shè)計任務(wù),計算部分已經(jīng)完成,圖紙基本繪制成功!
2、下一步的主要研究任務(wù),具體設(shè)想與安排
主要是完成圖紙的最后整理工作,和說明書的最后排板,打印,需要兩到三周的時 間。
3、存在的具體問題
1、 設(shè)計計算部分的準(zhǔn)確度驗算校核是否符合設(shè)計要求;
2、 圖紙繪制的相關(guān)尺寸的確定是否達到設(shè)計要求;
3、 驗證設(shè)計的帶式運輸機是否符合使用要求;
4、指導(dǎo)教師對該生前期研究工作的評價
指導(dǎo)教師簽名:
日 期:
材料清單
1、畢業(yè)設(shè)計(論文)課題任務(wù)書
2、畢業(yè)設(shè)計(論文)開題報告
3、中期檢查表
4、指導(dǎo)教師評閱表
5、評閱教師評閱表
6、答辯及最終成績評定表
7、畢業(yè)設(shè)計說明書
8、附錄材料
畢業(yè)設(shè)計(論文)任務(wù)書
機電工程學(xué) 院 機械 系(教研室)
系(教研室)主任:
(簽名)
年 月 日
學(xué)生姓名:
學(xué)號:
專業(yè): 機械設(shè)計制造及自動化
1 設(shè)計(論文)題目及專題: DTⅡ型皮帶運輸機設(shè)計
2 學(xué)生設(shè)計(論文)時間: 自 3 月 1 日開始至 5 月 3 日止
3 設(shè)計(論文)所用資源和參考資料: [1]機械工業(yè)部設(shè)計單位聯(lián)合設(shè)計組主編,DTⅡ型固定式帶式輸送機設(shè)計選用手冊.鄭州:黃河水利出版社, 1998
[2]孫恒,陳作模主編.機械原理.北京:高等教育出版社 ,1996
[3]機械工業(yè)部北京起重機運輸研究所主編.DTⅡ型通用固定式帶式輸送機設(shè)計選用手冊.北京:冶金工業(yè)出版社 ,1994
[4] 宋偉剛主編,散狀物料帶式運輸機設(shè)計.東北大學(xué):東北大學(xué)出版社,1994
[6]馬香蜂,李自治主編,機械設(shè)計制圖,北京:高等教育出版社 ,1998.
[7]汪宗華.帶式運輸機.北京:機械工業(yè)出版社,1989
[8]成大先主編.機械設(shè)計手冊,第三版.北京:化學(xué)工業(yè)出版社,1993
4 設(shè)計(論文)完成的主要內(nèi)容: 1.技術(shù)要求
根據(jù)設(shè)計技術(shù)指標(biāo),進行膠帶機整機及其部件的設(shè)計,保證膠帶機的額定輸送量和輸送帶帶寬,設(shè)計需保證計算準(zhǔn)確,各部件的工作正常。設(shè)計說明書應(yīng)文理通順,條理清晰,圖文并茂。
2.工作要求
認真復(fù)習(xí)設(shè)計有關(guān)知識,并查詢有關(guān)資料,手冊。按時保質(zhì)、保量完成設(shè)計任務(wù)。設(shè)計過程中的問題及時請教老師。
3.圖紙要求
要求圖面清晰,布圖合圖,所有設(shè)計的圖紙用計算機繪制,符合國家標(biāo)準(zhǔn)
4.設(shè)計工作量
? 繪制膠帶機總圖一張
? 繪制改向滾筒圖紙及零件圖
? 繪制頭部支架一張
? 共完成圖紙工作量不少于A0圖紙兩張
編寫設(shè)計說明書一份不少于15000字
5 發(fā)題時間: 2007 年 3 月 1 日
鋼
一、普通碳素鋼
任何煉鋼方法都能煉出只有0.05%(甚至更少)碳的鋼。由于只有少量的碳,鋼的性能接近于純鐵,具有很高的塑性和很低的強度。從便于成形和使用角度看,高塑性和低強度是變形所需要的,然而,從產(chǎn)品設(shè)計角度來說,需要比這種低碳鋼更高的強度。增加強度最適用的方法是在鋼中增加或保留一些碳。然而,必須明白,強度的增加只在有損失塑性的情況下才能實現(xiàn),因此,最終總是在塑性和強度之間形成某種折衷。因為成分控制和增碳過程有一定難度,高碳高強度鋼的成本比低碳鋼高。
最常用的普通碳素鋼 因成本低,實際使用的大多數(shù)網(wǎng)是普通碳素鋼,它們由鐵和碳組成,普通碳素鋼的碳含量可分為低碳、中碳、高碳三類。除了用來控制硫的錳元素以外,其他元素只有很少量而被認為是雜質(zhì),有時它們對材料的性能可能有較小的影響。
低碳鋼 含碳大約0.06%-0.25%的鋼稱為低碳鋼,它們很難通過熱處理淬硬,因為碳的含量太低,很難形成硬的馬氏體結(jié)構(gòu),從而使熱處理相對不起作用。大量的低碳鋼被做成薄板材、帶材、棒材、板材、管材和線材等結(jié)構(gòu)。很多這類材料最后通過冷加工來提高硬度、強度和表面質(zhì)量。含碳小于等于20%的鋼可以經(jīng)受較大的塑性流動,經(jīng)常用作深拉成形零件或可用作表面硬化材料的塑性心部。低碳鋼容易鋼焊、熔焊和鍛造。
中碳鋼 中碳鋼(0.25%-0.5%)含有足夠的碳,可通過熱處理得到所需強度、硬度、切削加工性或其它特性。比類普碳鋼的硬度不能顯著提高到滿意的作為切削刀具,但承載能力可提高很多,同時保留足夠的塑性和良好的韌性。大多數(shù)鋼在熱軋狀態(tài)提供,經(jīng)常需進行切削加工。它能焊接,但比低碳鋼難得多,因為焊接熱量在局部區(qū)域引起了組織結(jié)構(gòu)的變化。
高碳鋼 高碳鋼含有 0.5%-1.6%的碳,這類鋼稱為工具和模具鋼,硬度是這類鋼所需的主要性能。因為組織轉(zhuǎn)變快,淬透性低,這種鋼幾乎都是用水淬火。即使用這種激烈的處理方式,并有變形和開裂的危險,這種鋼很少能完全淬透,淬硬層厚度不超過1英寸。實際上,在同樣強度下,熱處理淬硬的普通碳素鋼的塑性比合金鋼的低,但即使如此,因其成本低,仍堂使用碳素鋼。
二、合金鋼
普通碳素鋼可用于許多場合,也是最便宜的鋼種,因此使用得最多,但它們對某些工作要求不能完全滿足。這時可通過加入一些元素形成合金鋼的方式來提高鋼的某一項或幾項性能。即使是普通碳素鋼,也是鐵、碳、和錳的合成,但合金鋼中除了這些元素外,其他元素含量大于普通碳素鋼的雜質(zhì)含量,如錳含量要大于1.5%。
合金元素影響淬透性 人們對淬透性的興趣是間接的。淬透性通常與完全淬火時硬化深度的能力有關(guān)系。然而,隨著等溫曲線右移,即使在未完成硬化時,材料的性能也能顯著變化。在熱軋或鍛打后,材料通常采用空冷。所有合金鋼通常使等溫曲線右移,空冷時得到比普通鋼細的珠光體。這種細珠光體有較高的硬度和強度,可能會降低塑性,對切削加工性也有影響。
可焊性 總的來說,合金元素對可焊性產(chǎn)生壞影響,這里也影響淬透性的一種反應(yīng),焊接區(qū)快冷里,合金會使焊接區(qū)形成硬的、韌性差的結(jié)構(gòu),經(jīng)常導(dǎo)致開裂和變形。
三、低合金結(jié)構(gòu)鋼
市場上已有多種多樣的低合金結(jié)構(gòu)鋼,它們是屈服強度比普碳鋼高的低成本結(jié)構(gòu)材料。外加少量的一些合金元素不需經(jīng)過熱處理就可以提高熱軋鋼的屈服強度,比普碳鋼高30%-40%。在高應(yīng)力條件下,可減少橫截面尺寸25%-30%,同時增加成本15%-50%,這取決于合金元素的量和種類。
四、低合金AISI鋼
高性能高成本 低合金AISI(美國鋼鐵協(xié)會)鋼中的合金元素主要用于提高淬透性,它們比普碳鋼貴得多,通常只在必需時使用,用于熱處理硬化和回火條件下。與普碳鋼相比較,屈服強度高30%-40%,抗拉強度高10%-20%。同樣的拉伸強度和硬度時面積可減少30%-40%,沖擊強度大約提高兩倍。
通常需熱處理 低合金AISI鋼的總合金元素含量小于8%,雖然工業(yè)上大多數(shù)重要鋼的合金元素的含量少于5%。碳含量可從很低變到很高,但大多數(shù)為中碳鋼, 可用最小成本進行熱處理來有效改善性能。這種鋼廣泛用于汽車、機床、飛機,特別是用于制造承受高應(yīng)力且磨損大的動力零件。
五、不銹鋼
大量使用且最重要的高合金鋼是一組抗化學(xué)腐蝕能力極高的高鉻鋼。這類鋼的大多數(shù)在高溫下有好的力學(xué)性能,這類鋼最早稱為不銹鋼,隨著在高溫下使用的增加,它們經(jīng)常也稱為耐熱耐腐蝕鋼。
馬氏體不銹鋼 在鋼中加入少量鉻,或在一些高鉻鋼中加入硅或鋁,這種鋼對熱處理的響應(yīng)像低合金鋼一樣強。這種鋼具有正常的г相向а相的轉(zhuǎn)變,可采用與普碳鋼和低碳鋼類似的熱處理方法硬化。這種鋼稱為馬氏體鋼,其中含鉻4%到6%的鋼最常用。
鐵素體不銹鋼 含鉻量達30%或更多時,鐵碳平衡相圖的奧氏體區(qū)縮小,鋼失去了用通常熱處理方法感化的能力。這種鋼稱為鐵素體鋼,特別適用于有高耐腐蝕性要求的冷加工產(chǎn)口。
奧氏體不銹鋼 高絡(luò)鋼再加上8%以上的鎳或鎳與錳,相圖的鐵素體區(qū)就會縮小。最典型的鋼含18%和8%鎳,稱為奧氏體不銹鋼。他們不能用通常鋼的熱處理方法硬化,但可附加少量的其他元素通過固溶強化使它們硬化。
六、工具模具鋼
大量的工具(與切削刀具不同)和模具用普碳鋼或低合金鋼制造,這只是因為它們價格便宜,但這些材料有很多缺點。它們的淬透性差,硬度高而塑性低,溫度升高時不能很好地保持硬度。
錳鋼 錳工具模具鋼是油淬硬化鋼,在熱處理時很少變形或開裂。為提高淬透性,鋼中售有0.85%-1.00%的碳和1.5%-1.75%的錳,并有少量鉻、釩、鉬來提高硬度和韌性。
鉻鋼 高鉻工具模具鋼通常在油中淬硬,但有一些鉻鋼淬透性好,在空冷時就能淬硬。有組高絡(luò)鋼加有許多鎢、釩(有時還有鈷)來提高其高溫硬度,它們稱為高速鋼。
STEEl
PLAIN CARBON STEEL
Any steel-making process is capable of producing a product that has 0.05%or less carbon.With this small amount of carbon,the properties approach those of pure iron with maximum ductility and minimum strength.Maximum ductility is desirable from the standpoint of ease in deformation processing and service use.Minimum strength is desirable for deformation processing.However,higher strengths than that obtainable with this low carbon are desirable from the standpoint of product design.The most practical means of increasing the strength is by the addition or retention of some carbon.However ,it should be fully understood that any increase of strength over that of pure iron can be obtained only at the expense of some loss of ductility,and the final choice is always a compromise of some degree.Because of the difficulty of composition control or the additional operation of increasing carbon content,the cost of higher carbon,higher strength steel is greater than that of low carbon.
Plain Carbon Steels Most Used.Because of their low cost,the majority of steels used are plain carbon steels.These consist of iron combined with carbon concentrated in therr ranges classed as low carbon,medium carbon,and high carbon .With the exception of manganese used to control sulphur,other elements are present only in small enough quantities to be considered as impurityes ,though in some cases they may have minor effect on properties of the material.
Low Carbon. Steel with approximately 6 to 25 point of carbon(0.06%-0.25%) are rated as low carbon steels and are rarely hardened by heat treatment because the low carbon content pernmits so little formation of hard martensite that the process is relatively ineffective.Enormous tonnages of these low carbon steels are processed in such structural shapes as sheet ,strip ,rod,plate ,pipe ,and wire.A large portion of the material is cold worked grades containing 20 points or less of carbon are susceptilbe to considerable plastic flow and are frequently used as deep-drawn products or may be used as a ductile core for casehardened material.The low lpain carbon steels are readily brazed ,welded,and forged.
Medium Carbon. The medium carbon steels (0.25%-0.5%) contain sufficient carbon that they may be heat treated for desirable strength,hardness,machinability,or other properties.The hardness of plain carbon steels in this range connot be increased sufficiently for the material to serve satisfactorily as cutting tools ,but the load-carrying capacity of the steels can be raised considerably,while still retaining sufficient ductility for good toughness.The majority of the steel is furnished in the hot-rolled condition and is often machined for final finishing.It can be welded,but is more difficult to join by this method than the low carbon steel because of structural changes caused by welding heat in localized areas.
High Carbon. High carbon steel contains from 50 to 160 points of carbon (0.05%-1.6%) .This group of steels is classed as tool and die steel,in which hardness is the principal property desired.Because of the fast reaction time and resulting low hardenability,plan carbon steels nearly always must be waterquenched.Even with this drastic treatment and its accociated danger of distortion or cracking,it is seldom possible to develop fully hardened structure in material more than about 1 inch in thickness.In practice the ductility of heat-treat-hardened plain carbon steel is low compared to that of alloy steels with the same strength,but ,even so ,conbon steel is frequently used because of its lower cost.
ALLOY STEELS
Although plain carbon steels work well for many uses and are the cheapest steels and therefore the most used,they connot completely fulfill the requirements for some work.Individual or groups of properties can be improved by addition of various elements in the form of alloys. Even plain carbon steels are alloys of at least iron,carbon,and manganses,but the term blloy steel refers to steels containing elements other than these in controlled quantities greater than impurity concentration or ,in the case of manganese,greater than 1.5%.
Alloys Affect Hardenability. Interest in hardenability is indirect.Hardenability is usually thought of most in connection with depth-hardening ability in a full hardening operation. However,with the isothermal transformation curves shifted to the right,the properties forging ooperations ,the material usually air cools .Any alloy generally shifts the transformation curves to the right ,which with air cooling results in finer pearlite than would be formed in a plain carbon steel. This finer pearlite has higher hardness and strength,which has an effect
on machinability and higher hardness and strength,which has an effect on machinability and may lower ductility.
Weldability. The generally bad influence of alloys on weldability is a
further reflection of the influence on hardenability.With alloys present during the rapid cooling taking place in the ewlding area, hard ,nonductile structures are formed in the steel and frequently lead to cracking and distortion.
LOW ALLOY STRUCTURAL STEELS
Certain low alloy steels sold under various trade names have been developed to provide a low cost structural material with higher yield strength than plain carbon steel. The addition without heat treatment to 30%-40% greater than that of plain carbon steels.Designing to higher working stresses may reduce the required section size by 25%-30% at an increased cost of 15%-50%,depending upon the amount and the king of alloy.
The low alloy structural steels are sold almost entirely in the form of
hot-rolled structural shapes.These materials have good corrosion resistance ,particularly to atmospheric exposure.Many building codes are based on the more conservative use of plain carbon steels,and the use of alloy structural steel often has no economic advantage in these cases.
LOW ALLOY AISI STEELS
Improved Properties at Higher Cost. The low alloy American Iron and Steel Institute (AISI) steels are alloyed primarily for improved
hardenability.They are more coslty than plain carbon steels ,and their use can generally be justified only when needed in the heat-treat-hardened and
tempered condition.Compared to plain carbon steels,they can have 30%-40%
higher yield strengh and 10%-20% higher tensile strength. At equivalent tensile strengths and hardnesses,they can have 30%-40% higher reduction of area and approximately twice the impact strength.
Usually Heat Treated. The low alloy AISI steels are those containing less than approximately 8% total alloying elements,although most commercially inportant steels contain less than 5%.The carbon content may vary form very low to very high,but for most steels it is in the medium range that effective heat treatment may be employed for property improvement at minimum costs.The steels are used widely in automobile ,machine tool,and aircraft construction,especially for the manufacture of moving parts that are subject to high stress and wear.
STAINLESS STEELS
Tonnage-wise,the most important of the higher alloy steels are a group of high chromium steels with extremely high corrosion and chemical resistance. Most of these steels have much better mechanical properties at high temperatures. This group was first called stainless .With the emphasis on high temperature use,they are frequently referred to as heat and corrosion-resistant steels.
Martensitic Stainless Steel . With lower amounts of chromium or with silicon or aluminum added to some higher chromium steels ,the material responds to heat treatment much as any low alloy steal. The gamma-to-alpha
transformation in iron occurs normally,and the steel may be hardened by heat treatment similar to theat used on plain carbon or low alloy steels.
Steels of this class are called martensitic,and the most used ones have 4% to 6% chromium.
Austenitic Stainless steel. With larger amounts of chromium,as great sa 30% or more ,the austenite region of the iron-carbon equilibrium diagram is suppressed,and the steel loses its ability to be hardened by normal steel heat-treating procedures.Steels of this type are called ferritic and are particularly useful whenhigh corrosion resistance is necessary in cold-wored products.
Austenitic Stainless Steel. With high chromium and the addition of 8% or more of nickel or combinations of nickel and manganese,the ferrite region of the diagram is suppressed. These steels ,the most typical of which contains 18% chromium and 8% nickel,
are referred to as austenitic stainless steels. They are not hardenable by normal steel heattreating procedures,but the addition of small amounts of other elements makes some of them hardenable by a solution-precipittion reaction.
TOOL AND DIE STEELS
The greates tonnage of tools (other than cutting tools ) and dies are
made from plain carbon or low alloy steels.This is true onlly because of the low cost of these materials as their use has a number of disadvantages.THey have low harden-ability,low ductility associated with high hardness,and do not hold their hardness well at elevatesd temperature.
Mangnaese Steels. Manganese tool and die steels are oil hardening and have a reduced tendency to deform or crack during heat treatment .They contain from 85-100 points of carbon,1.5%-1.75% of manganese to improve hardenability,and small amounts of chromium. vanadium,and molybdenum to improve hardnwss and toughness qualities.
Chromium Steels.High chromium tool and die steels are usually quenched
in oil for hardening ,but some have sufficient hardenability to develop
hardness with an air quench.One group of the high chromium steels,called high speed steel,has substantial additions of tungsten, vanadium,and sometimes cobalt to improve the hardness in the red heat range .
學(xué)生實習(xí)報告
(限1500字以上)
院(系): 機械工程學(xué)院 專業(yè): 機械設(shè)計及其自動化 班級:姓名:
一、 實習(xí)的主要內(nèi)容:
(一)、2007年二月份開始,我在上海建華管樁有限公司的實習(xí),在公司我在生產(chǎn)部,主要從事生產(chǎn)管理和生產(chǎn)技術(shù)工作,包括現(xiàn)場管理和設(shè)備管理及主要設(shè)備的技術(shù)改造。
1、 參加由公司組織的理論知識的學(xué)習(xí),由有經(jīng)驗的領(lǐng)導(dǎo)、工程師授課,學(xué)習(xí)公司的文化、以及公司的發(fā)展前景、主要產(chǎn)品的生產(chǎn)流程和必要的技術(shù)要求以及一些改進方向、公司必須保留和更新發(fā)展的技術(shù)核心等等。
2、這幾個月我主要完成了離心機、拉絲機、滾焊機器等設(shè)備的CAD二維圖形繪制,并在工程師的帶領(lǐng)下參與設(shè)計和技改。
3、在公司進入車間進行管理培訓(xùn),由車間主任的帶領(lǐng)熟悉各生產(chǎn)流程并掌握好各工藝的技術(shù)關(guān)鍵。
4、熟悉了公司企業(yè)文化和生產(chǎn)工藝,在生產(chǎn)第一線實習(xí)了一個月時間,對生產(chǎn)流程上容易出現(xiàn)的問題仔細觀察,并在工藝討論會上提出來進行集體討論和研究解決方案。
5、第二個月被公司派往廣州中山進行短期培訓(xùn),涉及到企業(yè)文化及管樁知識的學(xué)習(xí),還進行戶外拓展生存培訓(xùn)。
(二)、2007年三四月在公司上崗實習(xí),負責(zé)B車間設(shè)備管理和生產(chǎn)中的技術(shù)改進。
1、監(jiān)督零件制作組的工作和配合工程師對設(shè)備問題進行討論和解決。
2、處理車間技術(shù)人員上報的設(shè)備和生產(chǎn)中的問題,進行快速調(diào)動人員解決。
3、參與車間起重機的安裝全過程。
4、在車間巡視和機修人員碰頭收集生產(chǎn)中問題,上報公司技術(shù)技術(shù)部。
二、實習(xí)取得的經(jīng)驗及收獲:
(一)、通過一段時間在上海建華管樁公司的實習(xí),使我受益非淺。
1、首先讓自己對社會有了一定的了解,對公司的文化、產(chǎn)品有了一定的認識,為自己在以后的人生路上做了一個很好的鋪墊,逐步養(yǎng)成了吃苦耐勞的精神和團結(jié)一致的團隊精神。
2、通過實習(xí),使我對學(xué)校里學(xué)的理論知識有了更深入的了解,并且能夠熟練應(yīng)用CAD,PROE ,PhotoShop等軟件,對辦公軟件也更加熟練。
3、通過對公司的企業(yè)文化的學(xué)習(xí)和崗位實習(xí)使我更加了解自己工作的范圍和目標(biāo)。
(三)存在的不足及建議
通過實習(xí)我本人感覺到還有很多不足的地方:
我們學(xué)習(xí)了四年的理論知識,初步了解了機械行業(yè)的基礎(chǔ)知識,但在實際生產(chǎn)中這些還是不夠的,“書到用時方恨少”真實的說明了這個道理。初到公司缺乏工作經(jīng)驗,很多的工作感到無從下手,沒有一個完整的頭緒,很難單獨去接受一個實際的課題。
通過實習(xí)我想對學(xué)校一點建議:
1、 學(xué)校是否考慮注重學(xué)生的實際動手能力,加強學(xué)生的實踐能力的培養(yǎng),如增加學(xué)生的在校實習(xí)的機會和延長學(xué)生的實踐活動的時間、更加注重在老師的指導(dǎo)下讓學(xué)生真正的參與到實踐中去。
2、畢業(yè)設(shè)計期間學(xué)校是否能考慮組織學(xué)生到生產(chǎn)現(xiàn)場去參觀實習(xí),讓學(xué)生接受最為直接的設(shè)計基本知識,比憑空去設(shè)想更有效果。
(四)實習(xí)感想與經(jīng)驗總結(jié)
我相信各位04,05的學(xué)弟,學(xué)妹們。在實習(xí)前也會象一年前的我們一樣在宿舍里討論去哪里實習(xí),去哪方面的公司實習(xí)。其實我覺得不用想太多,認真學(xué)好知識,水到自然成。關(guān)鍵在于你現(xiàn)在就要學(xué)會怎么樣為人處事,怎么樣去扮演你自己在學(xué)校里,在社會里的角色。精彩的人生要靠你自己去創(chuàng)造!
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