CN106624285A - 350 MW unit main steam pipeline-P91 welding process - Google Patents

Abstract

The invention discloses a 350 MW unit main steam pipeline-P91 welding process. The welding process mainly comprises the five steps of pre-welding preparation, pre-welding preheating, control of interlayer temperature, welding and post-welding heat treatment. According to the 350 MW unit main steam pipeline-P91 welding process, the welding beam is uniform and attractive, the molding is good, the performance of impact toughness, welding brittleness, post-welding heat treatment, welding heat affected zone of the welding joint can be improved, and the service life of a boiler and a pipeline can be prolonged.

Description

A kind of 350MW Main Steam Pipeline of Unit-P91 welding procedures

Technical field

The present invention relates to pipeline welding technical field, specially a kind of 350MW Main Steam Pipeline of Unit-P91 welding procedures.

Background technology

ASME SA335P91 steel pipes, with excellent elevated temperature strength and high temperature oxidation resistance, but the relatively low conjunction of its welding performance Golden heat resisting steel is poor, if welding procedure is not good enough, weld metal ballistic work often occurs lowly, in addition welding point different characteristic region Mechanical property difference and easily cause stress concentration, therefore be also easy to produce initial failure.Such as certain power plant 125MW unit main steam pipes Road, due to welding point hardness deficiency, booster after running 9 months.Therefore, optimization welding is concentrated mainly on to the research of T/P91 Technique, seeks technology controlling and process joint performance mechanism, and innovative technology core technology improves impact toughness of welded joint, weldering The performance of fragility, post weld heat treatment and welding heat affected zone is connect, it is that industry energy conservation wound effect is carried to improve boiler and pipeline service life For technical support.Boiler tubing operation does not reach the time of standard requirement, and the security incidents such as booster occur in advance, can follow at present Welding procedure scope it is larger.Welding condition matches improper with thermal parameter, by technological experiment, selects preferred process, Training for skilled worker provides technical parameter.

The content of the invention

It is an object of the invention to provide a kind of 350MW Main Steam Pipeline of Unit-P91 welding procedures, to solve the above-mentioned back of the body The problem proposed in scape technology.

For achieving the above object, the present invention provides following technical scheme：A kind of 350MW Main Steam Pipeline of Unit-P91 welding Technique, it is characterised in that：Comprise the following steps：

A, welding preparation：

A, back cover layer：Back cover welding is carried out using the two-sided protection weldering of tungsten inert gas, welding material is MTS3 welding wires, is welded Silk specification is φ 2.4mm；

B, packed layer：Layer welding is filled using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 2.5mm；

C, capping layer：Capping layer welding is carried out using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 3.2mm；

D, bevel：Double V-groove is opened steel pipe with lathe and boring and milling machine, and bevel angle is 55 ° -65 °, and root face is 1.2mm- 1.5mm；

B, weld preheating：Mother metal is preheated using Electric heating, preheating speed is 100 DEG C/h-150 DEG C/h, in advance Hot temperature is 150-200 DEG C, reaches constant temperature 120min-150min after preheating temperature；

C, control interlayer temperature：Using being heated up using Electric heating, thermometric is carried out using infrared thermometer, controlled Welding temperature processed is welded afterwards at 200 DEG C -300 DEG C；

D, welding：Comprise the following steps：

A, envelope backing weld：Gas tungsten arc welding is adopted with the speed of welding and 9- of 42mm/min-57mm/min The intake velocity of 11L/min is welded, welding current 90-110A, weldingvoltage 10-16V, heat input 1.3-1.7KJ/ mm；

B, packed layer welding：Adopt manual electric arc welding and welded with the speed of welding of 50mm/min-60mm/min, weld Electric current 70-90A, weldingvoltage 18-20V, heat input 1.5-1.8KJ/mm；

C, the welding of capping layer：Adopt manual electric arc welding and welded with the speed of welding of 70-80mm/min, welding current 115-125A, weldingvoltage 18-20V, heat input 1.3-2.0KJ/mm；

E, post weld heat treatment：Weldment is first lowered the temperature, is heated up afterwards, then constant temperature, then the mode lowered the temperature is heat-treated.

Preferably, heat treatment method is comprised the following steps in step E：

A, weldment is carried out into Slow cooling with the speed of 100 DEG C/h-150 DEG C/h, until temperature is down to 100 DEG C -120 DEG C Constant temperature 1h afterwards；

B, weldment heated by electrically heated mode again, heated up with the speed of 100 DEG C/h-150 DEG C/h, Constant temperature 4h after rising to 750 DEG C -770 DEG C；

C, weldment carried out with the speed of 100 DEG C/h-150 DEG C/h slowly cooling to 300 DEG C again, naturally cooled to afterwards Normal temperature.

Compared with prior art, the invention has the beneficial effects as follows：Main steam line-P91 welding procedure the weld seams of the present invention Uniform attractive in appearance, shaping is good, can improve impact toughness of welded joint, welding fragility, post weld heat treatment and sweating heat The performance of the zone of influence, improves boiler and pipeline service life.

Specific embodiment

The technical scheme in the embodiment of the present invention is clearly and completely described below, it is clear that described embodiment Only a part of embodiment of the invention, rather than the embodiment of whole.Based on the embodiment in the present invention, the common skill in this area The every other embodiment that art personnel are obtained under the premise of creative work is not made, belongs to the model of present invention protection Enclose.

Embodiment one：

A kind of 350MW Main Steam Pipeline of Unit-P91 welding procedures, comprise the following steps：

A, welding preparation：

A, back cover layer：Back cover welding is carried out using gas tungsten arc welding, welding material is MTS3 welding wires, and welding wire is advised Lattice are φ 2.4mm；

B, packed layer：Layer welding is filled using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 2.5mm；

C, capping layer：Capping layer welding is carried out using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 3.2mm；

D, bevel：Double V-groove is opened steel pipe with lathe and boring and milling machine, and bevel angle is 55 °, and root face is 1.2mm；

B, weld preheating：Mother metal is preheated using Electric heating, preheating speed is 80 DEG C/h, preheating temperature is 150, reach constant temperature 120min after preheating temperature；

C, control interlayer temperature：Using being heated up using Electric heating, thermometric is carried out using infrared thermometer, controlled Welding temperature processed is welded afterwards at 200 DEG C；

D, welding：Comprise the following steps：

A, envelope backing weld：Gas tungsten arc welding is adopted with the speed of welding of 42mm/min and

The intake velocity of 9L/min is welded, welding current 90A, weldingvoltage 10V, heat input 1.3KJ/mm；

B, packed layer welding：Adopt manual electric arc welding and welded with the speed of welding of 50mm/min, welding current 70A, Weldingvoltage 18V, heat input 1.5KJ/mm；

C, the welding of capping layer：Adopt manual electric arc welding and welded with the speed of welding of 70mm/min, welding current 115A, Weldingvoltage 18V, heat input 1.3KJ/mm；

E, post weld heat treatment：Weldment is first lowered the temperature, is heated up afterwards, then constant temperature, then the mode lowered the temperature is heat-treated.

In the present embodiment, heat treatment method is comprised the following steps in step E：

A, weldment is carried out into Slow cooling with the speed of 90 DEG C/h, until constant temperature 1h after temperature is down to 100 DEG C；

B, weldment heated by electrically heated mode again, heated up with the speed of 90 DEG C/h, risen to 750 DEG C Constant temperature 4h afterwards；

C, weldment carried out with the speed of 90 DEG C/h slowly cooling to 300 DEG C again, normal temperature is naturally cooled to afterwards.

Embodiment two：

A kind of 350MW Main Steam Pipeline of Unit-P91 welding procedures, comprise the following steps：

A, welding preparation：

A, back cover layer：Back cover welding is carried out using gas tungsten arc welding, welding material is MTS3 welding wires, and welding wire is advised Lattice are φ 2.4mm；

B, packed layer：Layer welding is filled using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 2.5mm；

C, capping layer：Capping layer welding is carried out using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 3.2mm；

D, bevel：Double V-groove is opened steel pipe with lathe and boring and milling machine, and bevel angle is 65 °, blunt

While being 1.5mm；

B, weld preheating：Mother metal is preheated using Electric heating, preheating speed is 100 DEG C/h, preheating temperature is 200 DEG C, reach constant temperature 150min after preheating temperature；

C, control interlayer temperature：Using being heated up using Electric heating, thermometric is carried out using infrared thermometer, controlled Welding temperature processed is welded afterwards at 300 DEG C；

D, welding：Comprise the following steps：

A, envelope backing weld：The entering with the speed of welding of 57mm/min and 11L/min that adopt gas tungsten arc welding Gas speed is welded, welding current 110A, weldingvoltage 16V, heat input 1.7KJ/mm；

B, packed layer welding：Adopt manual electric arc welding and welded with the speed of welding of 60mm/min, welding current 90A, Weldingvoltage 20V, heat input 1.8KJ/mm；

C, the welding of capping layer：Adopt manual electric arc welding and welded with the speed of welding of 80mm/min, welding current 125A, Weldingvoltage 20V, heat input 2.0KJ/mm；

E, post weld heat treatment：Weldment is first lowered the temperature, is heated up afterwards, then constant temperature, then the mode lowered the temperature is heat-treated.

In the present embodiment, heat treatment method is comprised the following steps in step E：

A, weldment is carried out into Slow cooling with the speed of 100 DEG C/h, until constant temperature 1h after temperature is down to 120 DEG C；

B, weldment heated by electrically heated mode again, heated up with the speed of 100 DEG C/h, risen to 770 Constant temperature 4h after DEG C；

C, weldment carried out with the speed of 100 DEG C/h slowly cooling to 300 DEG C again, normal temperature is naturally cooled to afterwards.

Embodiment three：

A kind of 350MW Main Steam Pipeline of Unit-P91 welding procedures, comprise the following steps：

A, welding preparation：

A, back cover layer：Back cover welding is carried out using gas tungsten arc welding, welding material is MTS3 welding wires, and welding wire is advised Lattice are φ 2.4mm；

B, packed layer：Layer welding is filled using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 2.5mm；

C, capping layer：Capping layer welding is carried out using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 3.2mm；

D, bevel：Double V-groove is opened steel pipe with lathe and boring and milling machine, and bevel angle is 58 °, and root face is 1.3mm；

B, weld preheating：Mother metal is preheated using Electric heating, preheating speed is 85 DEG C/h, preheating temperature is 180 DEG C, reach constant temperature 130min after preheating temperature；

C, control interlayer temperature：Using being heated up using Electric heating, thermometric is carried out using infrared thermometer, controlled Welding temperature processed is welded afterwards at 240 DEG C；

D, welding：Comprise the following steps：

A, envelope backing weld：Gas tungsten arc welding is adopted with the air inlet of the speed of welding of 50mm/min and 9L/min Speed is welded, welding current 95A, weldingvoltage 12V, heat input 1.4KJ/mm；

B, packed layer welding：Adopt manual electric arc welding and welded with the speed of welding of 54mm/min, welding current 75A, Weldingvoltage 18V, heat input 1.6KJ/mm；

C, the welding of capping layer：Adopt manual electric arc welding and welded with the speed of welding of 74mm/min, welding current 122A, Weldingvoltage 18V, heat input 1.5KJ/mm；

E, post weld heat treatment：Weldment is first lowered the temperature, is heated up afterwards, then constant temperature, then the mode lowered the temperature is heat-treated.

In the present embodiment, heat treatment method is comprised the following steps in step E：

A, weldment is carried out into Slow cooling with the speed of 95 DEG C/h, until constant temperature 1h after temperature is down to 105 DEG C；

B, weldment heated by electrically heated mode again, heated up with the speed of 95 DEG C/h, risen to 750 Constant temperature 4h after DEG C -770 DEG C；

C, weldment carried out with the speed of 95 DEG C/h slowly cooling to 300 DEG C again, normal temperature is naturally cooled to afterwards.

Example IV：

A kind of 350MW Main Steam Pipeline of Unit-P91 welding procedures, comprise the following steps：

A, welding preparation：

A, back cover layer：Back cover welding is carried out using gas tungsten arc welding, welding material is MTS3 welding wires, and welding wire is advised Lattice are φ 2.4mm；

B, packed layer：Layer welding is filled using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 2.5mm；

C, capping layer：Capping layer welding is carried out using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod is advised Lattice are φ 3.2mm；

D, bevel：Double V-groove is opened steel pipe with lathe and boring and milling machine, and bevel angle is 60 °, and root face is 1.2mm- 1.5mm；

B, weld preheating：Mother metal is preheated using Electric heating, preheating speed is 90 DEG C/h, preheating temperature is 180 DEG C, reach constant temperature 135min after preheating temperature；

C, control interlayer temperature：Using being heated up using Electric heating, thermometric is carried out using infrared thermometer, controlled Welding temperature processed is welded afterwards at 250 DEG C；

D, welding：Comprise the following steps：

A, envelope backing weld：The entering with the speed of welding of 50mm/min and 10L/min that adopt gas tungsten arc welding Gas speed is welded, welding current 100A, weldingvoltage 13V, heat input 1.5KJ/mm；

B, packed layer welding：Adopt manual electric arc welding and welded with the speed of welding of 55mm/min, welding current 80A, Weldingvoltage 19V, heat input 1.7KJ/mm；

C, the welding of capping layer：Adopt manual electric arc welding and welded with the speed of welding of 75mm/min, welding current 120A, Weldingvoltage 19V, heat input 1.5KJ/mm；

E, post weld heat treatment：Weldment is first lowered the temperature, is heated up afterwards, then constant temperature, then the mode lowered the temperature is heat-treated.

In the present embodiment, heat treatment method is comprised the following steps in step E：

A, weldment is carried out into Slow cooling with the speed of 100 DEG C/h, until constant temperature 1h after temperature is down to 110 DEG C；

B, weldment heated by electrically heated mode again, heated up with the speed of 95 DEG C/h, risen to 760 DEG C Constant temperature 4h afterwards；

C, weldment carried out with the speed of 95 DEG C/h slowly cooling to 300 DEG C again, normal temperature is naturally cooled to afterwards.

Experimental example：

By three groups of test test specimen point to be welded, per group of 6 test specimens, each test specimen is taken different in various embodiments of the present invention Welding method, preheating temperature, welding parameter, Technology for Heating Processing and welding operation personnel, determine weld hardness, heat affecting after welding Area's hardness and mother metal hardness, data measured such as following table：

The main steam line welding procedure even weld of the present invention is attractive in appearance, and shaping is good, can improve welding and connect The performance of head impact flexibility, welding fragility, post weld heat treatment and welding heat affected zone, improves

Boiler and pipeline service life.

Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding can carry out various changes, modification, replacement to these embodiments without departing from the principles and spirit of the present invention And modification, the scope of the present invention be defined by the appended.

Claims (2)

1. a kind of 350MW Main Steam Pipeline of Unit-P91 welding procedures, it is characterised in that：Comprise the following steps：

A, welding preparation：

A, back cover layer：Back cover welding is carried out using gas tungsten arc welding, welding material is MTS3 welding wires, and welding wire specification is φ2.4mm；

B, packed layer：Layer welding is filled using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod specification is φ2.5mm；

C, capping layer：Capping layer welding is carried out using manual electric arc welding, welding material is Chromo T91 welding rods, and welding rod specification is φ3.2mm；

D, bevel：Double V-groove is opened steel pipe with lathe and boring and milling machine, and bevel angle is 55 ° -65 °, and root face is 1.2mm- 1.5mm；

E, back filled argon protection, prevent the oxidation of sealing run；

B, weld preheating：Mother metal is preheated using Electric heating, preheating speed is 100 DEG C/h-150 DEG C/h, preheating is warm Spend for 150-200 DEG C, reach constant temperature 120min-150min after preheating temperature；

C, control interlayer temperature：Using being heated up using Electric heating, thermometric, control weldering are carried out using infrared thermometer Jointing temp is welded afterwards at 200 DEG C -300 DEG C；

D, welding：Comprise the following steps：

A, envelope backing weld：Gas tungsten arc welding is adopted with the speed of welding and 9-11L/ of 42mm/min-57mm/min The gas flow of min is welded, welding current 90-110A, weldingvoltage 10-16V, heat input 1.3-1.7KJ/mm；

B, packed layer welding：Adopt manual electric arc welding and welded with the speed of welding of 50mm/min-60mm/min, welding current 70-90A, weldingvoltage 18-20V, heat input 1.5-1.8KJ/mm；

C, the welding of capping layer：Adopt manual electric arc welding and welded with the speed of welding of 70-80mm/min, welding current 115- 125A, weldingvoltage 18-20V, heat input 1.3-2.0KJ/mm；

E, post weld heat treatment：Weldment is first lowered the temperature, is heated up afterwards, then constant temperature, then the mode lowered the temperature is heat-treated.

2. a kind of 350MW Main Steam Pipeline of Unit-P91 welding procedures according to claim 1, it is characterised in that：It is described Heat treatment method is comprised the following steps in step E：

A, weldment is carried out into Slow cooling with the speed of 100 DEG C/h-150 DEG C/h, until permanent after temperature is down to 100 DEG C -120 DEG C Warm 1h；

B, weldment heated by electrically heated mode again, heated up with the speed of 100 DEG C/h-150 DEG C/h, risen to Constant temperature 4h after 750 DEG C -770 DEG C；

C, weldment carried out with the speed of 100 DEG C/h-150 DEG C/h slowly cooling to 300 DEG C again, naturally cooled to afterwards often Temperature.