Docsity
Log inSign up
Docsity
Prepare for your exams
Prepare for your exams

Study with the several resources on Docsity

Earn points to download
Earn points to download

Earn points by helping other students or get them with a premium plan

Guidelines and tips
Guidelines and tips
Sell on Docsity
Sell on Docsity
Log inSign up

Prepare for your exams

Study with the several resources on Docsity

Find documents

Prepare for your exams with the study notes shared by other students like you on Docsity

Search Store documents

The best documents sold by students who completed their studies

Search through all study resources
Docsity AINEW

Summarize your documents, ask them questions, convert them into quizzes and concept maps

Explore questions

Clear up your doubts by reading the answers to questions asked by your fellow students

Earn points to download

Earn points by helping other students or get them with a premium plan

Share documents
download point icon20 Points

For each uploaded document

Answer questions
download point icon5 Points

For each given answer (max 1 per day)

All the ways to get free points
Get points immediately

Choose a premium plan with all the points you need

Study Opportunities

Choose your next study program

Get in touch with the best universities in the world. Search through thousands of universities and official partners

Community

Ask the community

Ask the community for help and clear up your study doubts

University Rankings

Discover the best universities in your country according to Docsity users

Free resources

Our save-the-student-ebooks!

Download our free guides on studying techniques, anxiety management strategies, and thesis advice from Docsity tutors

From our blog

Exams and Study
Go to the blog

Reinforced Concrete Design - Final Exam, Exams of Reinforced Concrete Design

Technological University of the Philippines (TUP)Reinforced Concrete Design

Comprehensive exam covering all major topics in Reinforced Concrete Design Includes beam, slab, and column design problems Follows code-based analysis and design procedures Ideal for final reviews and CELE prep

Typology: Exams

2023/2024

Available from 06/05/2025

imwinter
imwinter 🇵🇭

5

(1)

148 documents

1 / 2

Toggle sidebar

This page cannot be seen from the preview

Don't miss anything!

bg1
Romans 3:24
“But by the free gift of God’s grace all are put right with him through Christ Jesus, who sets them free.”
Prestressed Concrete Design
Final Exam
Name: _________________________________________________________ Instructor: Engr. Gamana
Section: Date:
Academic Integrity: Students who violate University rules on scholastic dishonesty are subject to disciplinary penalties,
including the possibility of failure in the course and/or dismissal from the University. Since such dishonesty harms the
individual, all students, and the integrity of the University, policies on scholastic dishonesty will be strictly enforced.
Solutions: Use 3 decimal places in your calculations, place your final answer with proper units on the first sheet of your
scratch paper, and credits will only be given for correct answers with correct solutions.
1. Member AB has a rectangular cross-section of 16 X 24 mm. For the loading shown with d = 55 mm and P = 30 kN.
a. Determine the normal stress at the midpoint of points H and K (a point 6 mm below K or 6 mm above H, not the
average of H and K).
b. Determine the major principal stress at the midpoint of points H and K (a point 6 mm below K or 6 mm above H,
not the average of H and K).
2. The section of a prestressed double-tee concrete floor joist is shown in the figure. Assume that there is a prestress loss
of 15% at service loads. Unit weight of concrete is 24.50 kN/m3 and f'c = 42 MPa
The properties of the double-tee sections are
A = 220,000 mm2 L = 11.5 m
I = 1890(106) mm4
Service loads on floor;
Dead load = 3.5 kPa
Live load = 7.5 kPa
Determine the prestressing force at the final stage, considering the bottom fiber of the midspan not to exceed
the modulus of rupture.
P
pf2

Partial preview of the text

Download Reinforced Concrete Design - Final Exam and more Exams Reinforced Concrete Design in PDF only on Docsity!

Romans 3: 24 “But by the free gift of God’s grace all are put right with him through Christ Jesus, who sets them free.”

Prestressed Concrete Design

Final Exam Name: _________________________________________________________ Instructor: Engr. Gamana Section: Date: Academic Integrity : Students who violate University rules on scholastic dishonesty are subject to disciplinary penalties, including the possibility of failure in the course and/or dismissal from the University. Since such dishonesty harms the individual, all students, and the integrity of the University, policies on scholastic dishonesty will be strictly enforced. Solutions: Use 3 decimal places in your calculations, place your final answer with proper units on the first sheet of your scratch paper, and credits will only be given for correct answers with correct solutions.

  1. Member AB has a rectangular cross-section of 1 6 X 24 mm. For the loading shown with d = 55 mm and P = 30 kN. a. Determine the normal stress at the midpoint of points H and K (a point 6 mm below K or 6 mm above H, not the average of H and K). b. Determine the major principal stress at the midpoint of points H and K (a point 6 mm below K or 6 mm above H, not the average of H and K).
  2. The section of a prestressed double-tee concrete floor joist is shown in the figure. Assume that there is a prestress loss of 15% at service loads. Unit weight of concrete is 24.50 kN/m3 and f'c = 42 MPa The properties of the double-tee sections are A = 220,000 mm2 L = 11. 5 m I = 1890(106) mm

Service loads on floor;

Dead load = 3 .5 kPa

Live load = 7.5 kPa

Determine the prestressing force at the final stage, considering the bottom fiber of the midspan not to exceed

the modulus of rupture.

P

Romans 3: 24 “But by the free gift of God’s grace all are put right with him through Christ Jesus, who sets them free.”

  1. A beam shown in the figure below is pre-tensioned using a 50 mm strand tendons placed variably throughout the length (Harped) with fpu=1860 MPa, fpy=0.85fpu, and the concrete capacity is f'c=4 5 MPa, f'ci=0.70f'c. Design the section using an I-beam with Bf= 1900 mm, hf=150 mm, Bw=120 mm, and carrying a load of w_LL=20 kN/m, w_(DL(assumed))=15 kN/m, w_SD=10 kN/m. The location of the centroid of the tendons is 250 mm from the bottom fiber, and the Prestressed losses = 18 %. a. Determine the total height (mm) of the I-beam (Roundup, increment of 50 mm) considering midspan is critical.
  2. The section of a prestressed hollow core slab is shown in the figure. The slab is simply supported over a span of 8.5 m and carries a superimposed dead load of 1.5 kPa and a live load of 2.10 kPa. The initial total prestressing force is 580 kN. Assume loss of prestressing of 17 % at service loads. The properties of the section are as follows: A_c=120x10^ mm^2, I_c=312x10^6 mm^4, w_D=2.30 kPa. a. Determine the stress at the bottom fiber of midspan for the final stage of loading in MPa 30