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公开(公告)号:KR1020140080643A
公开(公告)日:2014-07-01
申请号:KR1020120144952
申请日:2012-12-12
Applicant: 현대자동차주식회사
Abstract: Provided is a compacted graphite iron including Fe as the main component, 3.4-4.2 wt% of C, 1.5-2.5 wt% of Si, 0.10 wt% or less of P (excluding 0), 0.10 wt% or less of S (excluding 0), 0.10 wt% or less of Cr (excluding 0), 0.1-0.6 wt% of Mn, 0.2-1.6 wt% of Cu, 0.1 wt% or less of Sn (excluding 0), 0.05 wt% or less of Mg (excluding 0), 0.05-0.5 wt% of Mo, and at least one of 0.05-0.5 wt% of V and 0.05-0.5 wt% of Ti, as well as other inevitable foreign matters, an engine cylinder head, and a vehicle.
Abstract translation: 提供了以Fe为主成分的压实石墨铁,3.4〜3.4重量%的C,1.5〜2.5重量%的Si,0.10重量%以下的P(不包括0),0.10重量%以下的S(不包括 0),0.10重量%以下的Cr(不包括0),0.1-0.6重量%的Mn,0.2-1.6重量%的Cu,0.1重量%以下的Sn(不包括0),0.05重量%以下的Mg (不包括0),0.05-0.5重量%的Mo和0.05-0.5重量%的V和0.05-0.5重量%的Ti中的至少一个以及其它不可避免的异物,发动机气缸盖和车辆 。
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公开(公告)号:KR1020150021754A
公开(公告)日:2015-03-03
申请号:KR1020130099101
申请日:2013-08-21
Inventor: 남덕현
Abstract: 본 발명은 내구성이 우수한 회주철에 관한 것으로서, 중량%로, 탄소(C) 2.6~3.2%, 구리(Cu) 0.7~0.9%, 인(P) 0.4~0.7%, 몰리브덴(Mo) 0.2~0.4%, 주석(Sn) 0.02~0.08% 및 잔부의 철(Fe)과 기타 불가피한 불순물을 포함함으로써, 인장강도 및 피로강도 등이 향상되고 마찰계수가 저감되는 효과가 있으며, 본 발명으로 종래 고가 소재에 비하여 10% 이상의 원가를 절감시킬 수 있는 내구성이 우수한 회주철에 관한 것이다.
Abstract translation: 本发明涉及一种具有优异耐久性的灰铸铁,其由碳(C)2.6-3.2重量%,铜(Cu)0.7-0.9重量%,磷(P)0.4-0.7重量% 0.4重量%的钼(Mo),0.02-0.08重量%的锡(Sn); 剩余铁量和杂质。 因此,具有优异的耐久性的灰口铸铁具有改善的拉伸强度,疲劳强度和降低的摩擦系数; 并且与昂贵的常规材料相比降低了10%以上的生产成本。
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公开(公告)号:KR1020130132180A
公开(公告)日:2013-12-04
申请号:KR1020120056364
申请日:2012-05-25
Applicant: 현대자동차주식회사
Abstract: The present invention relates to a heat treatment method of a high-strength gray cast iron product and a high-strength gray iron cast composition used to the method. The heat treatment method comprises the steps of: putting the high-strength gray cast iron composition into a melting furnace to melt the high-strength gray cast composition; centrifugally casting the melted high-strength gray cast iron composition; cooling the centrifugally casted high-strength gray cast iron composition to the AC3 modification temperature in a mold; separating the cooled high-strength gray cast iron composition from the mold; maintaining the temperature of the separated high-strength gray cast iron composition in a warming furnace until the composition is completely austenitized; quenching salt bath to form an ausferrite structure by putting the high-strength gray cast iron composition, which is completely austenitized, into a salt bath furnace; and making the quenched high-strength gray cast iron composition to the ausferrite structure. The present invention can reduce processing costs and time because a heat treatment process is shortened by controlling a cooling process after a casting process. [Reference numerals] (AA) Temperature;(BB) Melting and casting;(CC) Cooling in a mold;(DD) Separate the mold, and maintain a warming furnace;(EE) Quench salt bath;(FF) Make ausfferite;(GG) Air cooling (Completion);(HH) Time (hr)
Abstract translation: 本发明涉及用于该方法的高强度灰铸铁产品和高强度灰铸铁组合物的热处理方法。 热处理方法包括以下步骤:将高强度灰铸铁组合物放入熔化炉中以熔化高强度灰铸造组合物; 离心铸造熔融高强度灰铸铁组合物; 将离心铸造的高强度灰铸铁组合物冷却至模具中的AC3改性温度; 将冷却的高强度灰铸铁组合物与模具分离; 保持分离的高强度灰铸铁组合物在加热炉中的温度,直到组合物完全奥氏体化; 通过将完全奥氏体化的高强度灰口铸铁组合物放入盐浴炉中淬火盐浴以形成铁素体结构; 并将淬火的高强度灰铸铁组合物制成铝铁素体结构。 本发明能够降低加工成本和时间,因为通过控制铸造工序后的冷却工序来缩短热处理工序。 (AA)温度;(BB)熔融铸造;(CC)模具中的冷却;(DD)分离模具,并保持加热炉;(EE)淬火盐浴;(FF)制备黄铁矿; (GG)空气冷却(完成);(HH)时间(小时)
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Patent Agency Ranking
公开(公告)号:KR1020120133778A
公开(公告)日:2012-12-11
申请号:KR1020110052612
申请日:2011-06-01
Applicant: 현대자동차주식회사
Abstract: PURPOSE: High-strength gray cast iron and a manufacturing method thereof are provided to reduce costs for alloy elements and obtain high workability by using a high-Mn galvanized steel sheet. CONSTITUTION: High-strength gray cast iron is mainly composed of Fe, and the high-strength gray cast iron includes 3.4-4.0wt.% of C, 1.8-2.2wt.% of Si, 1.4-1.8wt.% of Mn, 0.1wt.% or less(0 is exclusive) of P, 0.1-0.2wt.% of S, 0.3-0.6wt.% of Cu, 0.07wt.% or less(0 is exclusive) of Sn, 0.5-0.8wt.% of Cr, 0.2wt.% or less(0 is exclusive) of Ni, 0.1wt.% or less(0 is exclusive) of Mo, and inevitable impurities. [Reference numerals] (AA) Flake graphite; (BB) MnS
Abstract translation: 目的:提供高强度灰口铸铁及其制造方法,以降低合金元件的成本并通过使用高Mn镀锌钢板获得高加工性。 构成:高强度灰铸铁主要由Fe组成,高强度灰口铸铁包括C:3.4-4.0wt%,Si:1.8-2.2wt%,Mn:1.4-1.8wt%, 0.1重量%以下(0独占)P,0.1〜0.2重量%的S,0.3〜0.6重量%的Cu,0.07重量%以下(0独有)Sn,0.5〜0.8重量% ,Ni的0.1重量%以下(0为0),Ni为0.1重量%以下(0为排他性),不可避免的杂质为0.1重量%。 (附图标记)(AA)片状石墨; (BB)MnS
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公开(公告)号:KR1020160057768A
公开(公告)日:2016-05-24
申请号:KR1020140158783
申请日:2014-11-14
Applicant: 현대자동차주식회사
CPC classification number: F01L13/0015 , F01L1/047 , Y02T10/18
Abstract: 본발명의실시예에따른다단가변밸브리프트장치는, 엔진의운전에의해회전하는캠 샤프트; 상기캠 샤프트와함께회전하고상기캠 샤프트의축방향으로이동가능하도록상기캠 샤프트의외주면에배치되며, 하이캠 및로우캠이형성된적어도 2개이상의캠 형성부; 상기캠 형성부에형성된상기하이캠 또는상기로우캠 중어느하나에의해작동되는밸브개폐장치; 상기 2개이상의캠 형성부중 어느하나와함께움직이도록상기캠 샤프트의외주면에배치되는작동유닛; 상기작동유닛을상기캠 샤프트의축방향을따라선택적으로이동시키는솔레노이드; 상기캠 샤프트와함께회전하고, 상기캠 샤프트의외주면에서상기캠 형성부중 어느하나와상기캠 형성부중 다른하나의사이에상기캠 샤프트의축방향으로이동가능하게배치되며, 상기캠 형성부중 어느하나가축방향으로움직임에따라축방향이동되어상기캠 형성부중 다른하나를상기캠 샤프트의축방향으로이동시키는연동유닛; 및상기연동유닛을상기캠 샤프트의축방향을따라선택적으로이동시키는핀 작동장치;를포함할수 있다.
Abstract translation: 根据本发明的实施例的多可变气门提升装置可以包括:通过发动机的操作而旋转的凸轮轴; 至少两个凸轮形成部分,其与凸轮轴一起旋转,并且布置在凸轮轴的外圆周上,并具有高凸轮和低凸轮; 由形成在凸轮形成部中的高凸轮或低凸轮之一操作的阀开闭装置; 操作单元,其设置在所述凸轮轴的外周上,以与所述凸轮形成部中的一个一起移动; 选择性地使所述操作单元沿着所述凸轮轴的轴向移动的螺线管; 连接单元,其与凸轮轴一起旋转,并且布置成在凸轮轴的一个凸轮形成部和另一凸轮形成部之间沿凸轮轴的轴向移动,并且将另一个凸轮形成部移动到 作为一个凸轮形成部件的凸轮轴的轴向沿轴向移动; 以及销操作装置,用于选择性地沿着凸轮轴的轴向方向移动连接部件。 多重可变气门提升装置具有简单的结构,并且其组件之间没有干扰地有效地运行。
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公开(公告)号:KR1020160045182A
公开(公告)日:2016-04-27
申请号:KR1020140139790
申请日:2014-10-16
Inventor: 남덕현
Abstract: 본발명은회주철을제조하기위한용강을이루는성분을함량을조절하여피로강도및 열충격특성을우수하게유지할수 있는실린더라이너용회주철및 이를이용한실린더라이너의제조방법에관한것으로서, 본발명의일 실시형태에따른실린더라이너용회주철은 C: 3.2 ~ 3.7wt%, Si: 2.0 ~ 2.8wt%, Mn: 0.50 ~ 1.0wt%, P: 0.20wt% 이하(0wt% 제외), S: 0.10wt% 이하(0wt% 제외), Cr: 0.50wt% 이하(0wt% 제외), Cu: 0.20 ~ 0.80wt%, Mo: 0.10 ~ 0.40wt%, 나머지 Fe 및기타불가피한불순물을포함하고, 하기의 [식 1]을만족하는것을특징으로한다. 0.8 ≤ Cu + 1.5Cr + 1.2Mo ≤ 1.5 ……………… [식 1] [식 1]에서, Cu, Cr 및 Mo는각 성분의함량(wt%)을의미함.
Abstract translation: 本发明涉及一种用于气缸套的灰口铸铁,以及一种制造使用该气缸套的气缸套的方法,该气缸套控制制造钢水的物质的含量以制造灰口铸铁,以保持优异的疲劳强度和热冲击特性。 根据本发明的实施例,用于气缸套的灰口铸铁包括:3.2-3.7重量%的C,2.0-2.8重量%的Si,0.50-1.0重量%的Mn,0.20重量%以下的P (不含0重量%); 0.10重量%以下的S(不包括0重量%),0.50重量%以下的Cr(不包括0重量%),0.20-0.80重量%的Cu,0.10-0.40重量%的Mo和Fe等不可避免的杂质 ; 并且满足下面的公式1.式1:0.8 <= Cu + 1.5Cr + 1.2Mo <= 1.5; 在式1中,Cu,Cr和Mo是指各物质的含量(重量%)。
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公开(公告)号:KR101845410B1
公开(公告)日:2018-04-05
申请号:KR1020120056364
申请日:2012-05-25
Applicant: 현대자동차주식회사
Abstract: 본발명은고강도회주철제품의열처리방법및 이에사용되는고강도회주철조성물에관한것으로, 보다상세하게는고강도회주철조성물을용해로에도입하여용해하는단계, 용해된고강도회주철조성물을원심주조하는단계, 원심주조된고강도회주철조성물을금형내에서 AC3 변태점까지냉각하는단계, 냉각된고강도회주철조성물을금형으로부터분리하는단계, 분리된고강도회주철조성물을오스테나이트화가완료될때까지보온로에서온도를유지하는단계, 오스테나이트화가완료된고강도회주철조성물을염욕로에투입하여오스페라이트조직이형성되도록염욕(salt bath) 급냉하는단계, 염욕급냉된고강도회주철조성물을오스페라이트화하는단계를포함하여, 주조후의냉각과정에서제어냉각을통해열처리공정을단축하여공정비용및 시간을줄이는고강도회주철제품의열처리방법및 이에사용되는고강도회주철조성물에관한것이다.
Abstract translation: 本发明提供了一种方法,包括:在离心铸造方法的高强度热处理铸铁制品,因此,对于使用铸铁组合物的高强度,更具体地涉及包含溶解引进高强度的方法铸铁组合物的熔化炉,熔融高强度铸铁组合物中,离心铸造 冷却该高强度铸铁组合物到模具Ac3相变点内,所述方法包括:维护分离冷却的高强度的步骤的温度铸铁组合物从模具中,分离高强度铸铁组成在温暖直至奥氏体完成后,奥氏体画家 将成品高强度灰铸铁组合物浇铸到盐浴中以淬灭盐浴以形成奥氏体结构;以及渗透淬火的高强度灰铸铁组合物, 热处理高强度灰口铸铁产品,缩短热处理工艺并降低工艺成本和时间 高强度和方法涉及到灰色用于它的铸铁组合物。
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公开(公告)号:KR1020120012176A
公开(公告)日:2012-02-09
申请号:KR1020100074171
申请日:2010-07-30
Applicant: 현대자동차주식회사
IPC: C22C37/04
CPC classification number: C22C37/04 , C22C37/10 , C22C2202/00
Abstract: PURPOSE: Spheroidal graphite cast iron is provided to ensure high tensile strength and oxidation resistance at high temperature through the addition of aluminum and the optimization of other alloy components. CONSTITUTION: Spheroidal graphite cast iron consists of Fe as a main component, C of 2.7~4.0 wt%, Al of 1.5~4.0 wt%, Si of 1.5~4.0 wt%, Mb of 0.3~0.8 wt%, Mg of 0.025~0.050wt%, Mn of 0.40 wt% or less, P of 0.05 wt% or less, and S of 0.05 wt% or less.
Abstract translation: 目的:提供球墨铸铁,通过添加铝和优化其他合金部件,确保高温下的高抗拉强度和抗氧化性。 构成:球墨铸铁以Fe为主成分,C为2.7〜4.0重量%,Al为1.5〜4.0重量%,Si为1.5〜4.0重量%,Mb为0.3〜0.8重量%,Mg为0.025〜 0.050重量%,Mn为0.40重量%以下,P为0.05重量%以下,S为0.05重量%以下。
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