[HHCT] Heat of Hydration Analysis Control

Owned by Space Sync for Confluence
Apr 26, 2022
8 min read
"HHCT": { "FINAL_STAGE": { "__DESC__": "Final Stage", "__TYPE__": "Bool" }, "STAGE_NAME": { "__DESC__": "Stage Name", "__TYPE__": "String" }, "THETA": { "__DESC__": "Integration Factor", "__TYPE__": "Real" }, "INIT_TEMP": { "__DESC__": "Initial Temperature", "__TYPE__": "Real" }, "EVAL": { "__DESC__": "Element Stress Evaluation", "__TYPE__": "String" }, "OPT_USE_EQUI_AGE": { "__DESC__": "Use Equivalent Age", "__TYPE__": "Bool" }, "OPT_INCL_SELF_WEIGHT": { "__DESC__": "Include Self Weight", "__TYPE__": "Bool" }, "SELF_WEIGHT_FACTOR": { "__DESC__": "Self Weight Factor", "__TYPE__": "Real" }, "OPT_IS_CREEP_SHRINKAGE": { "__DESC__": "Is Creep & Shrinkage", "__TYPE__": "Bool" }, "ITEM": { "__DESC__": "Creep & Shrinkage", "__TYPE__": { "OPT_USE_CREEP_SHRINKAGE": { "__DESC__": "Use Creep & Shrinkage", "__TYPE__": "Bool" }, "TYPE": { "__DESC__": "Type", "__TYPE__": "String" }, "CREEP_CALC_METHOD": { "__DESC__": "Creep Calculation Method", "__TYPE__": "Integer" }, "M_GENERAL": { "__DESC__": "Method : General", "__TYPE__": { "ITER": { "__DESC__": "Number of Iterations", "__TYPE__": "Integer" }, "TOL": { "__DESC__": "Tolerance", "__TYPE__": "Real" } } }, "M_EFF_MOD": { "__DESC__": "Method : Effective Modulus", "__TYPE__": { "PHI1": { "__DESC__": "Phi1", "__TYPE__": "Real" }, "DAY1": { "__DESC__": "Day1", "__TYPE__": "Integer" }, "PHI2": { "__DESC__": "Phi2", "__TYPE__": "Real" }, "DAY2": { "__DESC__": "Day1", "__TYPE__": "Integer" } } } } } }

 

  • Introduce Input Data Symbols

API - Value Type

Input Data

API - Value Type

Input Data

Integer

🔴

Essential

String

Unnecessary

Boolean

🔺

Optional

Real

 

 

 

  • The required Input Data for defining Heat of Hydration Analysis Control

NO.

Name

API - Key

API - Value Type

Default

Heat of Hydration

NO.

Name

API - Key

API - Value Type

Default

Heat of Hydration

1

Heat of Hydration Analysis Control

  • 1

“KEY”

 

🔴

2

Final Stage

"FINAL_STAGE"

FALSE

🔺

3

Other Stage Name

"STAGE_NAME"

 

🔺

4

Integration Factor

"THETA"

0

🔺

5

Initial Temperature

"INIT_TEMP"

0

🔺

6

Element Stress Evaluation

  • Center : "CENTER"

  • Gauss : "GAUSS"

  • Nodal Point : "NODAL"

"EVAL"

"CENTER"

🔺

 

Creep & Shrinkage Option

7

Creep & Shrinkage Option

"OPT_IS_CREEP_SHRINKAGE"

FALSE

🔺

8

Creep & Shrinkage

"ITEM"

 

 

🔴

9

Use Creep & Shrinkage

"OPT_USE_CREEP_SHRINKAGE"

 

10

  • Creep : "CREEP"

  • Shrinkage : "SHRINK"

  • Creep & Shrinkage : “BOTH”

"TYPE"

"CREEP"

 

🔺

11

Creep Calculation Method

  • General : 0

  • Effective Modulus : 1

"CREEP_CALC_METHOD"

 

🔴

12

Convergence for Creep Iteration

  • (Method : General)

"M_GENERAL"

 

 

🔺

13

Number of Iterations

"ITER"

0

🔺

14

Tolerance

"TOL"

0

🔺

15

Factors for Effective Modulus

  • (Method : Effective Modulus)

"M_EFF_MOD"

 

 

🔴

16

Phi1

"PHI1"

 

🔴

17

Day1

"DAY1"

 

🔴

18

Phi2

"PHI2"

 

🔴

19

Day1

"DAY2"

 

🔴

 

Additional Option

20

Use Equivalent Age by Time & Temperature

"OPT_USE_EQUI_AGE"

FALSE

🔺

21

Include Selfweight Load

"OPT_INCL_SELF_WEIGHT"

FALSE

🔺

22

Self Weight Factor

"SELF_WEIGHT_FACTOR"

0

🔺

 

  • The JSON format example for inputting Heat of Hydration Analysis Control

"HHCT": { "1": { "FINAL_STAGE": true, "STAGE_NAME": "", "THETA": 1.0, "INIT_TEMP": 20.0, "EVAL": "NODAL", "OPT_USE_EQUI_AGE": true, "OPT_INCL_SELF_WEIGHT": true, "SELF_WEIGHT_FACTOR": -1.0, "OPT_IS_CREEP_SHRINKAGE": true, "ITEM": { "TYPE": "BOTH", "CREEP_CALC_METHOD": 0, "M_GENERAL": { "ITER": 30, "TOL": 0.001 } } } }