Mechanical Engineering - Production Engineering - Discussion
Discussion Forum : Production Engineering - Section 1 (Q.No. 41)
41.
The machining of titanium is difficult due to
Discussion:
32 comments Page 3 of 4.
Ashok said:
8 years ago
Option A is also right.
Anurag said:
8 years ago
Titanium is high chemical reactivity. So the option B is correct.
Mln said:
8 years ago
Titanium alloys due to their high strength, low thermal conductivity and chemical reactivity with tool materials (at elevated temperatures), pose a hazard to the tool and significantly reduce the tool life.
Sk samsul huda said:
8 years ago
Titanium has high chemical reactivity.
Dhaval Chaudhary said:
6 years ago
C is the correct answer.
Ref:R.S. Kurmi.
Ref:R.S. Kurmi.
Vineet said:
6 years ago
The machinability of titanium alloys is difficult due to their low thermal conductivity and elastic modulus, high hardness at elevated temperature, and high chemical reactivity.
Devang said:
6 years ago
For better machinability of any material, low tool-chip contact area is better.
So, the correct answer is B.
So, the correct answer is B.
Salahuddin said:
5 years ago
Both B and C can be the answer.
Ref : SK Mondal.
Ref : SK Mondal.
Vineet said:
5 years ago
Titanium and its alloys have gained widespread applications in aerospace, biomedical industries due to their following favourable properties: They are lightweight, possess high strength, have excellent fatigue performance and offer high resistance to an aggressive environment.
It is unfortunate that the above favourable properties in practical applications, prove to be a curse during machining:
Titanium alloys due to their high strength, low thermal conductivity and chemical reactivity with tool materials (at elevated temperatures), pose a hazard to the tool and significantly reduce the tool life.
In addition, a relatively low Young's modulus of titanium alloys leads to spring-back and chatter leading to the poor surface quality of the finished product.
Finally, during turning and drilling, long continuous chips are produced; causing their entanglement with the cutting tool and making automated machining near impossible.
The solution are;
Application of high-pressure coolant during cutting and drilling operations. This is quite expensive owing to coolant costs.
"Ultrasonic assisted machining" in which the tool is imparted an ultrasonic vibration with very low amplitude. Instead of continuous contact of the tool with work, this method offers an intermittent contact reducing the heat-affected zones at the chip-tool interface, work-flank interface etc. Thus increasing the tool life.
It is unfortunate that the above favourable properties in practical applications, prove to be a curse during machining:
Titanium alloys due to their high strength, low thermal conductivity and chemical reactivity with tool materials (at elevated temperatures), pose a hazard to the tool and significantly reduce the tool life.
In addition, a relatively low Young's modulus of titanium alloys leads to spring-back and chatter leading to the poor surface quality of the finished product.
Finally, during turning and drilling, long continuous chips are produced; causing their entanglement with the cutting tool and making automated machining near impossible.
The solution are;
Application of high-pressure coolant during cutting and drilling operations. This is quite expensive owing to coolant costs.
"Ultrasonic assisted machining" in which the tool is imparted an ultrasonic vibration with very low amplitude. Instead of continuous contact of the tool with work, this method offers an intermittent contact reducing the heat-affected zones at the chip-tool interface, work-flank interface etc. Thus increasing the tool life.
(1)
Vinay BEL said:
5 years ago
Option B is the right one.
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