极地用钢:第一部分
Fe-Ni-Mn 马氏体时效钢:第二部分
应变诱发熔化激活 (SIMA) 工艺:第一部分
冷金属过渡 (CMT) 焊接:第二部分
DataPLUS 模块提供上万种金属材料和非金属材料的腐蚀数据、焊接性能、尺寸与公差信息以及涂层信息。 点击这里了解更多。
Introduction to Total Materia 2019年10月3日
Total Materia Tips and Tricks 2019年11月7日
Introduction to Total Materia 2019年12月5日
在使用Total Materia几个月之后,以及深刻体验过所有潜在功能之后,我非常感谢你们的卓越工作和持续稳定的升级服务。 Total Materia始终是用来达成这一目的唯一工具。
M. Manfredini Bonfiglioli Industrial Gearmotors 博洛尼亚, 意大利
我们的目标很简单,就是让 Total Materia成为全球工程师在材料领域的首选一站式解决方案
Prof. Dr. Viktor Pocajt, CEOKey to Metals AG
Deep hole drilling or gundrilling is a metal working technique that developed through the manufacture of firearms. The need was identified to be able bore or drill a perfectly straight precision hole through the material and through this need developed a highly precise manufacturing process.
Deep hole drilling was first developed for the manufacturing of firearms, hence the other common name of gundrilling. Originally a time-consuming and expensive process, technological advances have made it a highly efficient manufacturing process utilized in all metal cutting industries, including automotive, aircraft, aerospace, construction, medical, tool and die, petro chemical, hydraulics, pneumatics and more. Gundrilling is an ideal solution for most deep hole and high precision drilling projects. This operation produces accurate, repeatable holes with excellent surface finishes.
The process of drilling deep holes in metal is a familiar one in many shops, particularly where firearms are manufactured, or heavy ordnance is constructed. Since the adoption of hollow spindles for lathes and other machine tools, the methods for machining the bores of guns have been employed in machine tool shops for drilling these spindles; and through this and other means the principles of the operation have become better understood.
It is not an simple matter, however, even with the best equipment, to drill or bore a deep hole that is smooth and round, of exactly the required diameter from end to end, and perfectly straight. It is well known that a long, or deep, hole, i.e. long in proportion to its diameter, is best roughed out and finished by using a tool on the end of a long bar which enters the work from one end.
This is true, whether drilling into solid metal, or boring and reaming a hole that has already been drilled or bored out. A boring bar which extends through the piece, and on which is either a stationary or a traveling head, is not satisfactory for very long work however, owing to the spring and deflection of the bar, which is made even more problematic by the fact that the bar must be smaller than the bore to allow room for the cutter head.
While a long hole may sometimes be finished satisfactorily by means of such a boring bar, by packing the cutter head with wooden blocks which just fill the part of the bore that has been machined, and so support the bar, the method is fundamentally incorrect for long work.
The best methods for machining deep holes effectively an adaptation of what has been proved to be successful in ordinary drilling and boring in the engine lathe or chucking machine.
Figure 1 shows the deep hole drilling steps according to AMEC Engineering Company LtD.
Step 1 - Pilot Drill:
Step 2 - Feed In:
Step 3 - Deep Hole Transition Drilling:
Step 4 - Deep Hole Drilling – Blind:
Step 5 - Deep Hole Drilling –Through:
Step 6 - Drill Retract: Figure 1: Guideline for deep hole drilling
Date Published: Jun-2013
输入搜索词:
搜索项
全文 关键字
标题 摘要
Total Materia has mechanical properties inserted for many thousands of materials and accessing them is just a click of a button away.
Covering a wide variety of property information, it is easy to find yield stress, tensile stress and elongation data for a huge number of materials within the database.
Enter the material of interest into the quick search field. You can optionally narrow your search by specifying the country/standard of choice in the designated field and click Search.
Total Materia will generate the search list for you to select the material of interest from the material list. Click on the material of interest.
On the subgroup page, click the Mechanical Properties link to view property data for the selected material. The number of mechanical property data records is displayed in brackets next to the link.
The mechanical properties data will be then be displayed along with all selected material information for your reference.
The mechanical properties data will be displayed for all available conditions and treatments.
It is also possible to switch between metric (SI) and Anglo-Saxon units with one click depending on your preference.
For you’re a chance to take a test drive of the Total Materia database, we invite you to join a community of over 150,000 registered users through the Total Materia Free Demo.