nota panduan penggunaan katalog ibs jkr versi 2:...

NOTA PANDUAN PENGGUNAAN KATALOG IBS JKR VERSI 2: 2016

Oleh:

Ir. Zul Amri Bin Abu Bakar

Bahagian Pembangunan dan Penyelidikan,

Cawangan Kejuruteraan Awam dan Struktur.

RASUK PRA TUANG

ISI KANDUNGAN Panduan Penggunaan Katalog IBS Versi 2: 2016

RASUK PRATUANG

PAPAK PRATUANG

KATALOG IBS JKR

KATALOG IBS JKR

JULAI 2010

KATALOG IBS JKR

VERSI 2: 2016

SENARAI LUKISAN DALAM KATALOG IBS JKR VERSI 2: 2016

NOTA AM

RASUK PRATUANG

TIANG PRATUANG

PAPAK PRATUANG

TANGGA PRATUANG

SAMBUNGAN PRATUANG

1.0 PRECAST BEAM

PRECAST RECTANGULAR BEAM

PRECAST INVERTED T BEAM

PRECAST L SHAPE BEAM

1.1 RASUK PRATUANG (JENIS SEGIEMPAT)

Lekukan 200 mm

Lekukan 100 mm

BIL SAIZ RASUK LEKUKAN

1 300 X 600 200mm

2 300 X 700 200mm

3 350 X 700 200mm

4 350 X 800 200mm

5 300 X 600 100mm

6 300 X 700 100mm

7 350 X 700 100mm

8 350 X 800 100mm

9 300 X 500 -

10 200 X 500 -

11 200 X 600 -

12 200 X 700 -

13 250 X 600 -

14 250 X 700 -

15 250 X 800 -

Lukisan Baru Lukisan Asal

1.2 RASUK PRATUANG (JENIS INVERTED T & L)

INVERTED T

BIL SAIZ RASUK

1 400 X 500

2 400 X 600

3 400 X 700

4 400 X 800

5 500 X 500

6 500 X 600

7 500 X 650

8 500 X 700

9 500 X 800

10 600 X 600

11 600 X 700

12 600 X 800

Papak Papak

Lukisan Baru

Lukisan Asal

BIL SAIZ RASUK

1 300 X 500

2 300 X 600

3 300 X 700

4 300 X 800

5 400 X 500

6 400 X 600

7 400 X 700

8 400 X 800

JENIS L

Papak

Jenis L

Inverted T

1.3 PANDUAN PENGGUNAAN

CARTA ALIR PENGGUNAAN KATALOGMula

Mengira nilai momen lentur dan daya ricih muktamad

dari analisis rekabentuk

Rujuk Panduan 2 Rekabentuk Secara In-House

(One Off/In-situ)

Pilih saiz keratan dan bentuk komponen yang

bersesuaian dengan kapasiti momen, ricih dan beban

paksi pada komponen pratuang yang telah direka

i) Papak Pratuang Jenis Separa (Momen lentur)

ii) Rasuk Pratuang (Momen lentur dan Ricih)

iii) Tiang Pratuang (Momen lentur dan Beban Paksi)

Periksa kestabilan, kekuatan dan integriti pada

keseluruhan rekabentuk struktur

Siap

Rajah 1 : Carta Alir bagi panduan pengguna Katalog IBS JKR

LANGKAH UMUM PENGGUNAAN LUKISAN PIAWAI

1. STEPS FOR USING STANDARDIZE DRAWING FOR PRECAST BEAM

1.1 The designer shall prepare layout which contain information for beam, slab column, half joint and nib.

1.2 This guideline specifies how to incorporate precast beam from tables into the layout.

1.3 There are 3 types of precast beam in the JKR IBS CATALOGUE VERSION 2: 2016:

i. Rectangular Beam

ii. Inverted T Beam

iii. L Shape Beam

1.4 The designer shall determine item as follows:

The type of beam and beam size will be used in the project

Design data values as required by the code:

i. Design Moment (Mu)

ii. Design shear (V)

LANGKAH UMUM PENGGUNAAN LUKISAN PIAWAI

1.5 The designer shall refer to Precast Beam Catalogue (drawing no JKR.CKAS/P-IBS/PEL 15/……. ) for

the specified type of moment and type of shear to get the beam designation.

1.6 All the information for detailing reinforcement bar, links and related information for the beam can be

found in the specified drawing.

1.7 Explanation of Designation

1.7.1 Designation

Uji Minda… 1

BR-3580-6039

Uji Minda… 2

BT-4080-5036

Uji Minda… 3

BL-4050-0508

1.4 CONTOH PENGGUNAAN

Lukisan Arkitek digunakan

untuk menentukan kedudukan

rasuk.

Struktur dimodelkan di

dalam perisian Orion/

StaadPro bagi tujuan

analisis.

Pada peringkat ini, saiz

rasuk dan jenis rasuk yang

akan digunakan ditentukan

oleh perekabentuk mengikut

keperluan dan kesesuaian.

Model struktur dalam

bentuk 3D

Hasil analisis struktur seperti

momen lentur dan daya ricih

digunakan untuk penentuan saiz

rasuk di dalam Katalog IBS JKR

Versi 2 .

Pemilihan komponen rasuk

daripada Katalog IBS JKR V.2

dengan menggunakan nilai

momen lentur dan daya ricih

yang diperolehi.

Lukisan struktur dihasilkan dengan

menggunakan pelabelan komponen

daripada Katalog IBS JKR V.2.

BR-2560-1316

CONTOH PENGGUNAAN: RECTANGULAR BEAM

Precast Rectangular Beam

The designer's data:

Type of beam : Rectangular Beam

Beam size : 300 x 500 (mm)

Maximum moment capacity, Mu: 150 kNm

Maximum shear capacity, Vu: 200 kN

STEP 1: The type of beam and beam size will be used to identify the specific drawing

to be referred.

STEP 2: In this example, for the Rectangular beam size 300 x 500 (mm), the related drawing

from the catalogue :

JKR/CKAS/P-IBS/PEL 15/BR-3050/BR 01

Precast Rectangular BeamRectangular beam size 300 x 500(mm) : JKR/CKAS/P-IBS/PEL 15/BR-3050/BR 01

Precast Rectangular BeamSTEP 3: From the drawing, the designer has to identify which designation of beam should be used by

referring to the Maximum moment capacity, Mu (For this example Mu:150 kNm) and Maximum shear

capacity, Vu (For this example Vu:200 kN)

Figure 1 & 2 : Rectangular Beam Detail & Rectangular Beam Table Properties

STEP 4: The designation that will be used in this case is BR-3050-1520. This designation also will be

used as a marking in beam layout.

STEP 5: As shown in Figure 1, the required reinforcement for main bar of the beam are:

a) Top reinforcement bar: 2T16 for T1, 2T16 for T2

b) Bottom reinforcement bar : 4T20 for B1

c) Link that will be using for this beam are :

i. T10-200 for L1

ii. T10-200 for L2

iii. 2T10@100 c/c for L3

d) Detail for link and lifting hook refer to table in Figure 3 below:

INVERTED T BEAM

Precast Inverted T BeamThe designer's data:

Type of beam : Inverted T Beam

Beam size : 400 x 600 (mm)

Maximum moment capacity, Mu: 500 kNm

Maximum shear capacity, Vu: 359 kN

STEP 1: The type of beam and beam size will be used to identify the specific drawing

to be referred.

STEP 2: In this example, for the Inverted T beam size 400 x 600 (mm), the related drawing

from the catalogue :

JKR/CKAS/P-IBS/PEL 15/BT-4060/BT 02

Precast Inverted T BeamInverted T beam size 400 x 600 (mm): JKR/CKAS/P-IBS/PEL 15/BT-4060/BT 02

Precast Inverted T BeamSTEP 3: From the drawing, the designer has to identify which designation of beam should be used by

referring to the Maximum moment capacity, Mu (For this example Mu:500 kNm) and Maximum shear

capacity, Vu (For this example Vu: 359 kN)

Figure 4 & 5 : Inverted T Beam Detail & Table Properties

STEP 4: The designation that will be used in this case is BT-4060-5035. This designation also will be

used as a marking in beam layout.

STEP 5: As shown in Figure 4, the required reinforcement for main bar of the beam are:

a) Top reinforcement bar: 2T20 for T1, 2T20 for T2 and 2T20 for T3

b) Bottom reinforcement bar : 4T25 for B1 and 4T25 for B2

c) Link that will be using for this beam are :

i. T10-250 for L1 & L2 for X,

ii. T10-300 for L2 & L2 for Y

iii. 2T10@100 c/c for L3

d) Detail for link and lifting hook refer to table in Figure 6 below:

L SHAPE BEAM

Precast L Shape Beam

The designer's data:

Type of beam : L Shape Beam

Beam size : 300 x 700 (mm)

Maximum moment capacity, Mu: 600 kNm

Maximum shear capacity, Vu: 364 kN

STEP 1: The type of beam and beam size will be used to identify the specific drawing

to be referred.

STEP 2: In this example, for the L Shape beam size 300 x 700 (mm), the related drawing

from the catalogue :

JKR/CKAS/P-IBS/PEL 15/BL-3070/BL 03

Precast L Shape BeamL Shape beam size 300 x 700 (mm): JKR/CKAS/P-IBS/PEL 15/BL-3070/BL 03

Precast L Shape BeamSTEP 3: From the drawing, the designer has to identify which designation of beam should be used by

referring to the Maximum moment capacity, Mu (For this example Mu:600 kNm) and Maximum shear

capacity, Vu (For this example Vu: 364 kN)

Figure 7 & 8 : L Shape Beam Detail & Table Properties

STEP 4: The designation that will be used in this case is BL-3070-6036. This designation also will be

used as a marking in beam layout.

STEP 5: As shown in Figure 7, the required reinforcement for main bar of the beam are:

a) Top reinforcement bar: 2T16 for T1, 2T16 for T2 and 2T16 for T3

b) Bottom reinforcement bar: 3T25 for B1 and 3T25 for B2

c) Link that will be using for this beam are:

i. T10-200 for L1 & L2 for X

ii. T10-300 for L1 & L2 for Y

iii. 3T16@150 c/c for L3

d) Detail for link and lifting hook refer to table in Figure 9 below:

NOTA PANDUAN PENGGUNAAN KATALOG IBS JKR VERSI 2: 2016

Oleh:

Wan Rizana Binti Wan Muhammad

Bahagian Pembangunan dan Penyelidikan,

Cawangan Kejuruteraan Awam dan Struktur.

PAPAK PRA TUANG JENIS SEPARA

2.0 PAPAK PRATUANG

TERDAPAT 3 JENIS KETEBALAN PAPAK IAITU:

1. 150mm

2. 200mm

3. 250mm

2.1 PAPAK PRATUANG JENIS SEPARA

2.2 PANDUAN PENGGUNAAN

LANGKAH UMUM PENGGUNAAN LUKISAN PIAWAI

1.0 STEPS FOR USING STANDARDIZE DRAWING FOR PRECAST HALF SLAB

1.1 The designer shall prepare layout which contain information for beam, slab

column, half joint and nib.

1.2 This guideline specifies how to incorporate Precast Half Slab from tables into the layout.

1.3 The designer shall determine item as follows:

Design data values as required by the code:

Design Moment, M kNm

a. Mnon-comp – Installation Stage

b. Mcomp – Final Stage

Type of Precast Half Slab are based on slab thickness (mm)

a. HS-1215 – 1200mm(W) x 150mm (HT)

b. HS-1220 – 1200mm(W) x 200mm (HT)

c. HS-1225 – 1200mm(W) x 250mm (HT)

LANGKAH UMUM PENGGUNAAN LUKISAN PIAWAI

1.4 The designer shall refer to Precast Half Slab Table (drawing no: JKR.CKAS/P-IBS/PEL

15/HS…..) for the specified type of slab.

1.5 Explanation of Designation

Designation

CONTOH

Lukisan Arkitek digunakan

untuk meentukan kedudukan

papak.

Struktur dimodelkan di

dalam perisian Orion/

StaadPro bagi tujuan

analisis.

Hasil analisis struktur seperti

momen lentur dan daya ricih

digunakan untuk penentuan saiz

papak di dalam Katalog IBS JKR

Versi 2 .

Pemilihan komponen rasuk

daripada Katalog IBS JKR V.2

dengan menggunakan nilai

momen lentur yang

diperolehi.

CONTOH PENGGUNAAN: HALF SLAB

Precast Half Slab

The designer's data:

Thickness of Precast Half Slab (HT) : 150 mm

Maximum bending moment (Mnon-comp) : 8.0 kNm

Maximum bending moment (Mcomp) : 20.0 kNm

STEP 1: The type of slab and slab thickness will be used to identify the specific drawing

to be referred.

STEP 2: In this example, for the Half slab with thickness 150 (mm), the related drawing

from the catalogue :

JKR/CKAS/P-IBS/PEL 15/HS-1215/H 01

Precast Half SlabHalf slab with thickness 150 (mm): JKR/CKAS/P-IBS/PEL 15/HS-1215/H 01

Precast Half SlabSTEP 3: From the drawing, the designer has to identify which designation of half slab should be used

by referring to the Maximum bending moment, Mnon-comp (For this example Mnon-comp: 8.8 kNm) and

Maximum bending moment, Mcomp (For this example Mcomp: 22.1 kNm)

STEP 4: The designation that will be used in this case is HS-1215. This designation also will be used as

a marking in slab layout.

STEP 5: As shown in above, bar reinforcement T1 is T10-150 and T2 is T10-200 for designation half

slab type HS-1215 (drawing no. JKR/CKAS/P-IBS/PEL 15/HS-1215/H 01)

TERIMA KASIH