ค้นเจอ 1,341 รายการ

Strength:

แปลว่า(english) A very general term that may be applied to a material or a structure. In a material, strength refers to a level of stress at which there is a significant change in the state of the material, e.g., yielding or rupture. In a structure, strength refers to a level of level of loading which produces a significant change in the state of the structure, e.g., inelastic deformations, buckling, or collapse.

Bending Strength

แปลว่า(english) Upper limit of normal stress of a beam at which fracture or excessive plastic deformation occurs.

Requirements engineering

แปลว่า(Software Engineering) the activities required to elicit, elaborate, negotiate, specify, and validate system or software requirements

weighted creep length

แปลว่าดู creep length, weighted

Software engineering

แปลว่า(Software Engineering) a discipline that encompasses the process associated with software development, the methods used to analyze, design and test computer software, the management techniques associated with the control and monitoring of software projects and the tools used to support process, methods, and techniques.

gasoline engine

แปลว่าเครื่องยนต์ใช้น้ำมันเบนซินเป็นเชื้อเพลิง (อาจเรียกสั้น ๆ gas engine) ก็ได้

Eng

แปลว่าอักษรย่อของคำว่า engineer = วิศวกร, นายช่าง

Baked Strength

แปลว่า(english) Compressive, shear, tensile or transverse strength of a mold sand mixture when baked at a temperature above 231 B0F (111 B0C) and then cooled to room temperature.

Reverse engineering

แปลว่า(Software Engineering) trying to develop design models or an understanding of design using program code as a starting point

System engineering

แปลว่า(Software Engineering) focuses on the analysis and design of all elements of a complete product, service, or technology for the transformation of information or control

Flexural Strength

แปลว่า(Concrete Engineering) A property of a solid that indicates its ability to withstand bending.

Bearing Strength

แปลว่า(english) The maximum bearing load at failure divided by the effective bearing area. In a pinned or riveted joint, the iffective area is calculated as the product of the diameter of the hole and the thickness of the bearing member.