1
APOSTOLOS MARDIRIS
Integrated Master in Architecture University of Thessaly
SKILLS: • • • • • • •
Creative Problem Solving Design Architectural Design Computer-Aided Design (CAD) Model making 3D Modeling Animation
SOFTWARES: • • • • • • • • • • • • • •
AutoCAD Adobe Illustrator Adobe Photoshop Adobe InDesign Adobe Premiere Pro Rhino - Grasshopper Autodesk 3ds Max Autodesk Revit Blender Relux Audacity Microsoft Word Microsoft Excel Microsoft Power Point
CONTACT: a.mardiris@gmail.com Apostolos Mardiris Apostolos Mardiris @ApoMardiris
2
ABOUT ME I was born in 2001 and raised in Kavala, Greece. I started studying architecture on the Department of Architecture on University of Thessaly in 2019. Now I am on the last year of my studies and in a year I will receive the Integrated Master's Degree in Architecture. I’m interested in many different fields such as bioclimatic and sustainable architecture, sacred architecture, parametric architecture and finally generative design on which I am writing my thesis with title “Applications of generative design in Architecture”. I like cooperating with other designers, architects and engineers in order to explore new ways of designing. I can work and communicate fluently in Greek and English.
EXPERIENCE • Young Visionary Architecture Competition, June 2021 • Microhome Competition No4, May 2022 • Model of Greek Community Pharmacy of 2030 Competition, May 2023 • Intern Architect in MICHAELIDES & TSIAMPOUSI ARCHITECTS, July - September 2023 • The Right to Breathe Exhibition, Delta Art Gallery, Volos, Greece, Septmber - October 2023 [LINK]
CONTENTS
ARCITECTURE DESIGN STUDIOS_page.2-29
ARCHITECTURE DESIGN STUDIO I: The house_page.2-3 ARCHITECTURE DESIGN STUDIO II: Multiple housing_page.4-5 ARCHITECTURE DESIGN STUDIO III: Biomimetic Architecture_page.6-11 ARCHITECTURE DESIGN STUDIO IV: Structures of closed collective co-existence _page.12-19 ARCHITECTURE DESIGN STUDIO V: De-development, collective life, energy and political autonomy_ page.20-25 ARCHITECTURE DESIGN STUDIO VI: The right to breathe_page.26-29
OPTIONAL STUDIOS_page.30-39
DESIGN OF THE BOUNDARY: Monument of the battle of Thermopylae_page.30-31 RUGGED TERRAIN: Nature in urban area_page.32-33 STRUCTURAL [TRANS]-FORMATIONS: Structural diagrams - Diagramatic structures_page.34-35 EXAL(L)A: Redefining the urban datum_page.36-37 DESIGN OF THE SACRED: Grave design_page.38-39
COMPULSORY COURSES_page.40-41
CONSTRUCTION MATERIAL - CONSTRUCTION II _page.40-41
COMPETITIONS_page.42-47
MICROHOME COMPETITION No 4: Centaur House_page.42-43 PH2030: Model of Greek Community Pharmacy of 2030 Competition_page.44-47
1
ARCHITECTURE DESIGN STUDIO I: The house Project by: Apostolos Mardiris Professor: Theoklis Kanarelis Semester III (2020-2021) The project undertaken is about a building intended for domestic use. The house I was assigned to plan is a main residence for ΠΡΟΜΑΚΕΤΕΣ - ΠΡΟΣΧΕΔΙΑ a family with two children. The plot given is located at the downtown area of Volos , characterized by a Mediterranean climate and whose dimensions are the following: 21 m (length) X 9 m (width). Additionally, two identical plots are located on the two long sides of the plot, right and left (as the plan below). The coverage factor for this part of the city is 70%.
In this sketch we see our plot (hatched one) in relation with the neighbouring.
Early concept sketches
The design occupies 116 m2 of the plot’s 18 m2 and the rest is used as courtyard. In order to fulfill the family’s needs, the house must have two floors. My main achievement and goal for the project was to take into account and utilize the Mediterranean climate, thus enabling the outdoor living. There would also been given access to courtyards from the most rooms on the ground floor and the first floor. On the ground floor there are two main sliding doors, one on the living room and another one in the dining room. When the sliding doors are open, the rooms are connected by a central yard which is between them. As a result, the various activities can be performed. Also, on the second floor a spacious terrace with view on the main yard has been created therefore providing an outdoor experience.
.2
AXONOMETRICS GROUND FLOOR PLAN
2
FIRST FLOOR PLAN
NORTH ELEVATION
SECTION A-A
SOUTH ELEVATION
SECTION B-B
3
ARCHITECTURE DESIGN STUDIO II: Multiple housing Project by: Apostolos Mardiris, Nikolaos Lemonidis Professor: Lina Dima Semester: IV (2020-2021) +1.10
+0.50
The studio focuses on multiple housing. Coexistence, +0.50 density, hierarchy, the relations between public and private, the relation between the building and the urban environment, the internal structure of the building N are some of the main issues of the studio. The site is located in the Old City of Volos. The concept focuses on multiple entrances, one from the main road, one from a side street and one from a park on the right. The apartments are designed in order to minimize the road noises and maximize the view of the park. There are three types of apartments, with 1 bedroom (55 m2), with 2 bedrooms (75 m2), with 3 bedrooms (135 m2).
+1.10
Sketches and early maquettes.
0.00
0
2
5
10
GROUND FLOOR PLAN
0
4
2
5
FIRST FLOOR PLAN
10
0
2
5
SECOND FLOOR PLAN
10
0
2
5
10
0
2
5
SECTION D-D
0
2
5
10
SOUTH ELEVATION
10
SECTION C-C
0
2
5
10
WEST ELEVATION
5
GRASSHOPPER ΑΣΚΗΣΗ 1: PARAMETRIC TOWERS ARCHITECTURE DESIGN STUDIO III: Biomimetic Architecture ΑΠΟΣΤΟΛΟΣ ΜΑΡΔΥΡΗΣ GRASSHOPPER ΑΣΚΗΣΗ 1: PARAMETRIC Project by: Apostolos Mardiris, Ariadni Logiadi TOWERS Professor: Ioanna Symeonidou SemesterΑΠΟΣΤΟΛΟΣ V (2021-2022) ΜΑΡΔΥΡΗΣ
The first part of the studio was an introduction to rhino grasshopper software through a series of exercises. In these exercises we created parametric models, some of them with parametric characteristics. The biomimetic approach was necessary on the main part of the following studio.
PARAMETRIC TOWERS
ATRACTOR - SURFACE GRASSHOPER R ΑΣΚΗΣΗNORMAL 3: SURFACE NORMAL ΑΡΧΟΝΤΗ ΕΒΕΛΙΝΑ ΛΙΝΑ ΛΟΓΙΑΔΗ ΑΡΙΑΔΝΗ ΔΝΗ ΑΠΟΣΤΟΛΟΣ ΜΑΡΔΥΡΗΣ ΑΡΔΥΡΗΣ
6
Inspired by nature in terms of form as well as function this is a biomimetic project based on the geometries of shale rocks. By observing the birds which nest on shale cliffs we study the potential benefits of an architecture characterized by the contractions and protrusions formed due to an asymmetrical layering of similar masses. As a result, we take advantage of the functionality of this specific morphology in nature, to utilize it in terms of shielding from the sun as well as the wind. Specifically, this is a forty-two-story building that houses a variant of offices, study halls, indoor parks, and outdoor balconies, which despite its size could be categorized as a low energy consumption building design due to its energy efficient shape that both shades from the sun (and so it minimizes the use of air-conditioning) and protects from the wind (and so being able to ventilate naturally, through windows, despite the strong winds that are expected in high-rise buildings).
CONCEPT DIAGRAM ΔΙΑΓΡΑΜΜΑ CONCEPT
ΤΕΛΙΚΟΣ ΟΓΚΟΣ FINAL VOLUME
1.1. ΒΑΣΙΚΟΣ ΟΓΚΟΣ MAIN VOLUME
2. ΔΗΜΙΟΥΡΓΙΑ ΞΕΧΩΡΙΣΤΩΝ 2. FOOR CREATION ΟΡΟΦΩΝ
5. ΕΦΑΡΜΟΓΗ ΜΟΤΙΒΟΥ 5. APPLAYING THE FLOOR PATTERN ΣΤΟ ΣΥΝΟΛΙΚΟ ΟΓΚΟ
3. ΠΡΟΣΘΗΚΗ ΠΛΑΚΩΝ 3. ADDING BALCONIES
4.ΜΕΤΑΚΙΝΗΣΗ ΟΡΟΦΩΝ 4. MOVING THE FLOORS KEEPING AS ΚΑΙ ΠΛΑΚΩΝ ΜΕ ΣΤΑΘΕΡΟ CENTER THE STAIRCASE ΚΕΝΤΡΙΚΟ ΚΛΙΜΑΚΟΣΥΣΤΑΣΙΟ
VERTICAL USAGEΔΙΑΓΡΑΜΜΑ DIAGRAM ΧΡΗΣΕΩΝ ΚΑΤΑΚΟΡΥΦΟ ROOF ΔΩΜΑ
MAIN BUILDING ΟΡΟΦΟΙ (ΒΑΣΙΚΟΣ ΟΓΚΟΣ ΚΤΗΡΙΟΥ)
ΕΠΤΑ ΟΡΟΦΟΙ SEVENΤΥΠΙΚΟΙ REPEATING FLOORS
ΟΡΟΦΟΣ ΓΡΑΦΕΙΩΝ OFFICES FLOOR
ΟΡΟΦΟΣ ΑΙΘΡΙΟΥ BREAK FLOOR
GROUND FLOOR ΙΣΟΓΕΙΟ
ΕΞΩΤΕΡΙΚΟΣ ΧΩΡΟΣ OUTDOOR AREA
7
ARCHITECTURE DESIGN STUDIO III: Biomimetic Architecture
ΚΛΙΜΑΚΑ 1:1800
Project by: Apostolos Mardiris, Ariadni Logiadi ΓΕΝΙΚΟ ΤΟΠΟΓΡΑΦΙΚΟ ΑΝΑΓΝΩΡΗΣΗ ΠΕΡΙΟΧΗΣ Professor: Ioanna Symeonidou Semester V (2021-2022)
+ 5.329
+ 3.117
+ 0.905
+ 6.000
+ 0.000
+ 4.223
+ 2.011
ΟΓΕΙΟΥ ΜΕ ΕΞΩΤΕΡΙΚΟ ΧΩΡΟ
SITE PLAN LA CREU, BENIDORM
00
ΚΑΤΟΨΗ ΙΣΟΓΕΙΟΥ ΚΛΙΜΑΚΑ 1:200
A
N
B
+ 2.
01
1
+ 3.
11
7
+ 4.
22
3
+ 5.
32
9
+ 6.
00
0
B
8
0
10
20
GROUND FLOOR OUTDOOR SPACE PLAN
+5
A
+6 .00 0
.32 9
+ 0.
00
0
+ 0.
90
5
N 0
10
20
GROUND FLOOR PLAN
Α Α
ΚΑΤΟΨΗ ΟΡΟΦΟΥ ΓΡΑΦΕΙΩΝ ΚΛΙΜΑΚΑ 1:200
Β
ΚΑΤΟΨΗ ΟΡΟΦΟΥ ΑΙΘΡΙΟΥ ΚΛΙΜΑΚΑ 1:200
Β Β
Β
N
N Α
0
Α
10
0
20
OFFICE FLOOR PLAN
10
20
ATRIUM FLOOR PLAN
ΤΟΜΕΣ + 147.40 + 144.40
+ 144.40
+ 11.20
+ 11.20
+ 16.00
+ 16.00 + 13.00
+ 13.00
+ 11.30
+ 10.00
+ 10.00
+ 11.20 + 8.51
+ 0.00
ΤΟΜΗ Α-Α 1:600 SECTION A-A
0
10
20
30
40
50
+ 7.00
+ 6.63
+ 6.00
+ 6.00
+ 4.22
+ 0.00
ΤΟΜΗ Β-ΒB-B 1:600 SECTION
0
10
20
30
40
50
9
ARCHITECTURE DESIGN STUDIO III: Biomimetic Architecture Project by: Apostolos Mardiris, Ariadni Logiadi Professor: Ioanna Symeonidou ΛΕΠΤΟΜΕΡΙΕΣ ΤΟΜΩΝ Semester V (2021-2022)
ΛΕΠΤΟΜΕΡΙΑ ΤΟΜΗΣ Β-Β ΚΛΙΜΑΚΑ 1:100
DETAIL SECTIONS
ΟΨΕΙΣ
ΑΝΑΤΟΛΙΚΗ ΟΨΗ 1:600 EAST ELEVATION
10
0
0
10
20
30
40
50
1
2
WEST ELEVATION
ΝΟΤΙΑ ΟΨΗ 1:600
3 10 5 4 ΛΕΠΤΟΜΕΡΙΑ ΤΟΜΗΣ Α-Α ΚΛΙΜΑΚΑ 1:100
0
10
20
30
40
50
INTEGRATION ON THE LANDSCAPE
GENERAL VIEW
ENTRANCE
OUTDOOR SPACE
OFFICE BALCONY
11
ARCHITECTURE DESIGN STUDIO IV: Structures of closed collective co-existence Project by: Apostolos Mardiris, Nikolaos Lemonidis Professor: Theoklis Kanarelis Semester VI (2021-2022) The synthetic idea of the monastery on the island of Rhenia arose organically with the development of elements around the temple. In this way we created the rest of the building complexes such as the cells for the residence of 20 monks, the dining room including an external area for greeting the guests, the hagiography workshop, the area for growing wheat and the cemetery. Mainly guided by the solitary lifestyle in search of spiritual perfection we focused on creating large open and secluded spaces with various openings such as the temple, the dining room and the workshop. We studied various ways in which light can enter the space and as a result we placed the openings in such a way as to create a spiritual atmosphere. The basic building material we used is traditional stonework in combination with reinforced concrete, materials which in combination renew the space without losing the identity of the landscape. Sketches and early maquettes.
Sketches of the Temple
Sketches of the Monastery 12
Volume maquette
MONASTERY PLAN
13
ARCHITECTURE DESIGN STUDIO IV: Structures of closed collective co-existence Project by: Apostolos Mardiris, Nikolaos Lemonidis Professor: Theoklis Kanarelis Semester VI (2021-2022) SECTION A-A
SECTIONS - ELEVATIONS
SECTION C-C
SECTION B-B
WEST ELEVATION
EAST ELEVATION
SOUTH ELEVATION 14
NORTH ELEVATION 15
ARCHITECTURE DESIGN STUDIO IV: Structures of closed collective co-existence Project by: Apostolos Mardiris, Nikolaos Lemonidis Professor: Theoklis Kanarelis Semester VI (2021-2022)
1. TEMPLE 2. DINING ROOM 3. GUEST ROOM 4. CELLS 5. CEMETERY 6. HAGIOGRAPHY WORKSHOP 7. STORAGE 8. WINERY 9. CROPS
AXONOMETRIC 16
TEMPLE DETAIL SECTION
TEMPLE PLAN
RHENIA SITE PLAN 17
ARCHITECTURE DESIGN STUDIO IV: Structures of closed collective co-existence Project by: Apostolos Mardiris, Nikolaos Lemonidis Professor: Theoklis Kanarelis Semester VI (2021-2022)
AXONOMETRIC 18
19
ARCHITECTURE DESIGN STUDIO V: De-development, collective life, energy and political autonomy Project by: Apostolos Mardiris, Eirini Mardiri, Ariadni Logiadi Professor: Iordanis Stylidis Semester VII (2022-2023)
Library, study hall, dining room, student residences, and facilities are an important part of a student campus. However, while studying examples of universities in smaller towns, it is found that there is rarely the space or the resources to implement a highly demanding project such as this. In this study, we designed a building specifically to meet these issues. As fifty percent of the volume of the building is underground, there is a more ergonomic distribution of space and at the same time, a constantly cool temperature, which is useful to the usually hot Mediterranean climate. It is not only the underground part of the complex, however, that contributes to a more environment friendly architecture. More specifically, the complex is designed to be energy self-sufficient. The orientation of the main building is strictly on the north-south axis, which is why the left-wing slightly bends. The reason for this is adding enough solar panels on the roof to be able to provide electricity sufficiently to the whole complex. Nevertheless, electricity is not the only thing it provides, since the vertical plantations which take up a big part of the underground space, are able, with the proper care, to constantly produce vegetables and fruits. Finally, the outdoor fields, also add to the total production of food.
BASEMENT PLAN
GROUND FLOOR PLAN
20
FIRST - SECOND FLOOR PLAN
Volume Sketches
21
ARCHITECTURE DESIGN STUDIO V: De-development, collective life, energy and political autonomy Project by: Apostolos Mardiris, Eirini Mardiri, Ariadni Logiadi Professor: Iordanis Stylidis Semester VII (2022-2023)
ROOF PLAN
SOUTH ELEVATION
NORTH ELEVATION 22
WEST ELEVATION
EAST ELEVATION 23
ARCHITECTURE DESIGN STUDIO V: De-development, collective life, energy and political autonomy Project by: Apostolos Mardiris, Eirini Mardiri, Ariadni Logiadi Professor: Iordanis Stylidis Semester VII (2022-2023)
SECTION A-A
24
SECTION C-C
SECTION D-D
ROOM SECTION
25
ARCHITECTURE DESIGN STUDIO VI: The Right to Breathe Project by: Apostolos Mardiris, Nikolaos Lemonidis Professor: Kostas Manolidis Semester VIII (2022-2023) The studio's theme is the change of a harmful industrial operation into a space that will enhance the environment and society. More precisely, the AGET cement factory in Volos is closed down, which causes concern and discomfort in the local community due to its negative effects on the environment. The operation of the factory has caused social reactions due to the emission of gaseous pollutants from the burning of poor quality fuels, namely the use of unapproved processed waste. In response to these actions, a movement of active citizens is demanding that the factory should be removed from the city. In this context, scenarios for regeneration and renewal of the area are proposed. Initially, two main public attractions for the area are placed, the Natural History Museum and a section of the University of Thessaly. An important part of our proposals are the large vegetation areas. Different types of configurations are created, either in the form of a square, or in large areas of grass, or with denser planting of trees. In addition, there are stadiums and sports facilities that are open to the general public. Paths and bike paths extend throughout the parks facilitating the movement of visitors and directing them to all types of vegetation. In harmony with these alternations of greenery are placed lowrise residential complexes as well as a dormitory building for the accommodation of university students. The proposal is completed with the catering zone located on the former docks of AGET and connected to the rest of the facilities by footbridges.
26
Current situation
USAGE DIAGRAM RESIDENCES UNIVERSITY STUDENT RESIDENCES LIBRARY NATURAL HISTORY MUSEUM COFEE SHOPS - RESTAURANTS OBSERVATORY
PLANTING DENSITY
PLANTING DIAGRAM
Design Progress Sketches
NOLLI DIAGRAM
CIRCULATION DIAGRAM ROAD PEDESTRIAN STREET PARK PATHS FOOTBRIDGE PARKING
27
ARCHITECTURE DESIGN STUDIO VI: The Right to Breathe Project by: Apostolos Mardiris, Nikolaos Lemonidis Professor: Kostas Manolidis Semester VIII (2022-2023)
28
29
DESIGN OF THE BOUNDARY: Monument of the battle of Thermopylae Project by: Apostolos Mardiris Professor: Theoklis Kanarelis Semester V (2021-2022) The monument is designed not only as a visual monument, a monument that the visitor observes and has a distance from, but also as a counter-monument. The three materials used are reinforced concrete, metal and water. The user enters one of the bath spaces separated either by reinforced concrete boxes or by sloping metal elements. The combination of these elements, the sometimes narrower or wider spaces, the reflections and shadows of the light between the metal elements simulate the hypothetical conditions in the narrow spaces of Thermopylae and stimulate the senses of the user.
MONUMENT PLAN
MONUMENT SECTION
30
31
RUGGED TERRAIN: Nature in urban area Project by: Apostolos Mardiris, Nikolaos Lemonidis Professor: Kostas Manolidis Semester VI (2021-2022) The course deals with the dynamics of nature in the urban field. Through design proposals, ways to restore the vitality and activity of natural matter in the everyday life of the city are explored. The issue is the high vegetation in the city of Volos. Specifically, it is requested to select a specific point in the city (street, square, roundabout, undeveloped plot, etc.) where an outdoor architectural configuration will be proposed which will include the intensive planting of selected trees. The main deliverable of the course will be a perspective image, of high quality and persuasiveness, showing the specific point after the proposed interventions and the growth of the trees. The synthetic process is done entirely through perspective collages on the image of the intervention point. The proposals will have a visionary character. Their figurative power and appeal will aggressively promote the request of the ecological revitalization of the city.
ΣΗΜΕΙΟ ΠΑΡΕ
Magnolia grandiflora “Gallisoniensis”) USED TREES: anus Orientalis) a mimosifolia) - Front left: Magnolia grandiflora “Gallisoniensis” rifolia) s)
32
-
Front right: Platanus Orientalis
-
Center: Jacaranda mimosifolia
-
Back right: Platanus acerifolia
-
Back left: Citrus × sinensis
28ης Οκτωβρίου - Π SITE:
Center of Volos, 28th October - Pavlou Mela, Department of Economic Sciences University of Thessaly
Νικόλαος Λεμονίδης (lemonnik92@gmail.com) | Απόστολος Μαρδύρης (a.mard
33
STRUCTURAL [TRANS]-FORMATIONS: Structural diagrams - Diagramatic structures Project by: Apostolos Mardiris Professor: Maria Vrontissi Semester VII (2022-2023) During the Structural Transformations course, a series of multiple readings of an action in video format is followed, aiming capturing it in a series of diagrams and models that result in a representative structural composition. The video analyzed in this work is Pixar's short animated film, Geri's Game. The events take place in a park where the protagonist is playing chess with his other self. Therefore, the impression is given that the characters in "reality" are two. Duality is the key feature of video. Other features of the video are the alternation of the protagonist's movements, the gradation of intensity in his movements, his characteristic facial expressions, the twist in the game's development. [COURSE BOOKLET]
CHARACTER POSITION RIGHT PLAYER LEFT PLAYER MOVEMENT INTENSITY
CHESS PAWN MOVEMENT PAWN LOSS
FACIAL EXPRESSIONS
SOUNDS
CAMERA
JOY
FEAR
CHARACTER VOICE
BACKGROUND FOCUS
ARROGANCE
PEACE
VOLUME
FOREGROUND FOCUS
NOTATION DIAGRAM
VIDEO SNAPSHOTS
CUBE ASSEMBLY AXONOMETRIC
1. AXES
34
2. HORIZONTAL ELEMENTS
3. VERTICAL ELEMENTS
4. FINAL STRUCTURE
ARROGANCE
FEAR
PEACE
JOY
CHARACTER POSITION
FACIAL EXPRESSIONS
ANALYTICAL SEQUENCE
LEFT CHARACTER
RIGHT CHARACTER
AXES
MOVEMENT INTENSITY
CAMERA FOCUS
SOUNDS
CHARACTERS
CRUCIAL CHESS PLAY
MUSIC
STRUCTURAL SYNTHESIS GRID
METAL CHESS
PAWN MOVEMENT
PAWN LOSS
NEGATIVE EMOTIONS YZ-LEFT POSITIVE EMOTIONS WOOD CHARACTER
NEGATIVE EMOTIONS XY-RIGHT POSITIVE EMOTIONS
35
EXAL(L)A: Redefining the urban datum Project by: Apostolos Mardiris, Ariadni Logiadi, Evagelia Totska Professors: Evelyn Gavrilou, Costis Paniyiris Semester VII (2022-2023) The industrial, almost brutalistic buildings in the city of Athens are usually met with displeasure. Indeed, at first glance, this might be the case, but observing them from above, perhaps this sea of cement has an aesthetical value. This project is an improvement of the terraces of a block in the Gizi District of Athens. We suggest that this usually forgotten space could be used. A complex of routes through staircases and outside corridors creates a network that unites the terraces of the buildings to provide the residents with an area to stroll or walk, upon their own homes. As a result, we not only redefine the urban datum but also the common space.
VARVAKI STREET | EAST ELEVATION
GENNADIOU STREET | WEST ELEVATION
VALTINON STREET | NORTH ELEVATION
KALVOU STREET | SOUTH ELEVATION
SECTION A-A
36
TERRACE PLAN
37
DESIGN OF THE SACRED: Grave design Project by: Apostolos Mardiris Professor: Theoklis Kanarelis Semester VIII (2022-2023) We have more than once stressed the fact that all forms of cosmos-universe, temple, house, human body have an "opening" above. The meaning of this symbolism now becomes still clearer; the opening makes possible passage from one mode of being to another, from one existential situation to another. Passage is predestined for every cosmic existence. Man passes from pre-life to life and finally to death, just as the mythical Ancestor passed from pre-existence to existence and the sun passes from darkness to light. (The Sacred and the Profane, Mircea Eliade)
GRAVE PLAN
GRAVE SECTION
38
39
CONSTRUCTION MATERIAL - CONSTRUCTION II Project by: Apostolos Mardiris, Nikolaos Lemonidis Professor: Ioannis Nasioulas Semester IV (2020-2021) The course aims to understand the properties of various construction materials and to design construction plans for each different material. A specific study building is given for which four proposals must be designed with different construction methods (reinforced concrete, traditional stone construction, Paraskevopoulos structural system, metal construction). Each proposal differentiates the form of the building as different ways of dealing with it in the design are favored each time. Each proposal consists of floor plans, sections, elevations, formwork plans and section construction details. επικάλυψη (3 εκ.) - τσιμεντόπλακα κονίαμα (3 εκ.) - τσιμεντολάσπη υγρομόνωση - μεμβράνη ρύσεις (6 εκ.) κλίση 1.5% θερμομόνωση (10 εκ.) πλάκα Ο.Σ. 15 εκ. θερμομόνωση 5 εκ. σοβάς οροφής 1.5 εκ.
REINFORCED CONCRETE
+7.90
TRADITIONAL STONE CONSTRUCTION
προβολή περιμ.στηθαίου
Λ1
μάρμαρο 3 εκ. σοβατεπί (μάρμαρο 2 εκ.)
νεροσταλάκτης(1,0 x 1,0 εκ.) τσιμεντολάσπη 3 εκ.
-κεραμίδι -πήχεις 2x5εκ. -υγρομόνωση -πετσωμα 15χιλ. -καδρόνι 5x5εκ. -ξύλινο δοκάρι στέγης 10x10εκ. -κενό αέρα -ελκυστήρας 10x15εκ. -θερμομόνωση 5εκ. -ψευδοροφή 20χιλ.
+7.35
Λ1
γρηπίδα εμφ.σκυροδ.
δοκάρι O.Σ (25 x 50 εκ)
-καδρόνια 5x5
40x15εκ.
σκοτία 1x1 εκ.
δοκάρι O.Σ (25 x 50 εκ)
σοβάς 3 εκ. κουτί ρολού αλουμινίου ( 20 x 20 εκ.)
-λιθοδομή (50 εκ.) -θερμομόνωση (10 εκ.) -γυψοσανίδα (12 χιλ.)
σενάζ οπλ. σκυροδ. 15 x 50 εκ.
κουτί ρολού αλουμινίου ( 20 x 20 εκ.)
κάσσα αλουμινίου 5 x 10 εκ.
οδηγός κίνησης ρολού
Λ1 +7.90 +7.50
3.15 2.40
σενάζ Ο. Σ. 10 x 25 εκ.
κάσσα αλουμινίου 5 x 10 εκ.
οδηγός κίνησης ρολού
μαρμαροποδιά 3 εκ. τσιμεντολάσπη 2 εκ. φύλλα κουφώματος ( συρόμενα) κάσσα αλουμινίου 5 x 10 εκ.
2.40
νεροσταλάκτης (1 x 1 εκ.)
σοβάς 3 εκ. θερμομόνωση 7 εκ. τούβλο 9 x 9 x19 κενό αέρα 7 εκ. τούβλο 9 x 9 x19 σοβάς 3 εκ.
+4.05
+3.65
τάβλα ξύλινη 3 εκ. υπόστρωμα (κόντρα πλακέ) 2 εκ. καδρόνι 5 x 5 (ανά 35 εκ.) πλάκα Ο.Σ. 15 εκ. θερμομόνωση 5 εκ. σοβάς 3 εκ.
φύλλα κουφώματος (συρώμενα) κάσσα αλουμινλιου 5 x 10 εκ.
σοβατεπί (ξύλο 2 x 7 εκ.)
Λ2
+3.65
σκοτία 1x1 εκ.
+4.05
+3.65
σοβατεπί
Λ2 δοκάρι O.Σ (25 x 50 εκ)
σοβάς 3 εκ. δοκάρι O.Σ (25 x 50 εκ)
κουτί ρολού αλουμινίου ( 20 x 20 εκ.)
10.80
A
+0.00
11
9
7 ΚΟΥΖΙΝΑ
5
17
ΑΠΟΘΗΚΗ
1.05
6
16
3
-2.35
1.05
TOMH A-A 1:50
1
ΓΡΑΦΕΙΟ
φύλλα κουφώματος (συρώμενα) κάσσα αλουμινλιου 5 x 10 εκ.
+0.65 0.75
ΣΑΛΟΝΙ / ΤΡΑΠΕΖΑΡΙΑ
σοβατεπί (ξύλο 2 x 7 εκ.)
B
+0.00
φύλλα κουφώματος (συρώμενα) κάσσα αλουμινλιου 5 x 10 εκ.
+0.65 -πλάκα πεζοδρομίου -3 εκ. τσιμεντολάσπη -3 εκ. γκρομπετόν με ελαφρύ οπλισμό -10-12 εκ. χαλίκι 10 εκ.
σοβατεπί
+0.00
-λιθοδομή (15 εκ.) -δοκάρι Ο.Σ. (35 x 50 εκ.)
τοιχείο Ο.Σ (25 εκ.)
ΚΑΤΑΣΚΕΥΑΣΤΙΚΗ TOMH Α-Α ΚΑΤΑΣΚΕΥΑΣΤΙΚΗ -1.20ΟΠΛ.ΣΚΥΡΟΔΕΜΑ TOMH ΛΙΘΟΔΟΜΗ 1:20 A-A 1:20 CONSTRUCTION DETAIL
Ο.Γ.
Λ3
ΠΕΡΓΚΟΛΑ
πεδιλοδοκάρι (20 x 60 εκ.)
0.00
διάτρητος σωλήνας αποστράγγισης
ΟΔΟΣ ΣΧΕΔΙΟΥ ΠΟΛΗΣ (8μ)
μαξιλάρι (βάση στήριξης) λιθοδομής (25 x 40 εκ.)
-πλάκα πεζοδρομίου -3 εκ. τσιμεντολάσπη -3 εκ. γκρομπετόν με ελαφρύ οπλισμό -10-12 εκ. χαλίκι 10 εκ.
πεδιλοδοκάρι (20 x 60 εκ.)
θεμελίωση
πεδιλοδοκάρι (40 x 120 εκ.)
A
προστασία υγρομόνωσης Ρ.Γ.
2.40
0.00
2
(αυγουλιέρες) roofmate 3 εκ. (προστασία υγρομόνωσης) υγρομόνωση (βαφή η μεμβράνη) τοιχείο Ο.Σ. (25 εκ.) σοβάς (3 εκ.)
-1.65
4
18
τσιμεντόπλακα 3 εκ. τσιμεντολάσπη 3 εκ. 12.00 γκρο μπετόν με ελαφρύ οπλισμό 10 εκ. χαλίκι 10 εκ. 0.75 B αμμοχάλικο
2.30
Λ3
-1.20
2.40
8
14 15
0.00
ΣΤΕΓ. ΒΕΡΑΝΤΑ
σενάζ οπλ. σκυροδ. 15 x 50 εκ.
κάσσα αλουμινίου 5 x 10 εκ.
οδηγός κίνησης ρολού
3.10
10
ΟΔΟΣ ΣΧΕΔΙΟΥ ΠΟΛΗΣ (10μ)
12 13
-δάπεδο 5-10 εκ. -γέμισμα 5-6 εκ. 3.10 -πλάκα Ο.Σ. 18 εκ. -θερμομόνωση 10 εκ. -γυψοσανίδα 12χιλ.
κουτί ρολού αλουμινίου ( 20 x 20 εκ.)
+0.65
2.75 κάσσα αλουμινίου 5 x 10 εκ.
οδηγός κίνησης ρολού
W.C.
2.40
-λιθοδομή (50 εκ.) -θερμομόνωση (10 εκ.) -γυψοσανίδα (12 χιλ.)
Λ2
Ο.Γ. Ρ.Γ.
16.00 2.45
1.20
3.15 2.40
Λ3
διάτρητος σωλήνας αποστάγγισης
πεδιλοδοκάρι (40x120εκ.)
γκρο μπετόν καθαριότητας
Ο.Γ. Ρ.Γ.
ΚΑΤΟΨΗ ΙΣΟΓΕΙΟΥ 1:50
-δάπεδο 5-10 εκ. -γέμισμα 5-6 εκ. -ελαφρά οπλισμένο σκυρόδεμα (15 εκ.) -θερμομόνωση (5 εκ.) -υγρομόνωση (μεμβράνη ή -ασφαλτόπανο) -άοπλο σκυρόδεμα (10 εκ.) -χαλίκι (10 εκ.) -λιθορριπή
-1.20
CONSTRUCTION DETAIL
γκρο μπετόν καθαριότητας
Δ2 25/60
Δ1 25/60 A K3 25/60/60 12
11
10 9
13
7
15
Δ6 25/60 17
18
Δ7 25/60
Π1/15
Δ9 25/60
Δ12 25/60
Π4/15
4
2
1.05
K7 25/25
1
K5 25/25
K6 25/45 0.75
Δ11 25/60 B
Δ13 25/60
Ο.Γ. K9 25/60/60
Δ4 25/60
Π1/15
Δ3 25/60
Πρ/15 1
Π2/15
E-Z 15/90 Δ6 25/60
Δ7 25/60 Δ8 25/60
Δ9 25/60
Π3/15
Δ10 25/60
Δ14 25/60 K10 25/45
K11 25/50/60
Πρ/15 2
A
0.00
GROUND FLOOR FORMWORK PLAN ΞΥΛΟΤΥΠΟΣ ΟΡΟΦΗΣ Ρ.Γ.
Δ5 25/60 0.00
Δ5 25/60
0.75 Π5/15
B
40
Δ4 25/60
Δ10 25/60
Π2/15
K8 25/45
5
3
Π3/15
0.00 E-Z 15/45
1.05
6
16
Δ8 25/60
Δ3 25/60
8
14 Δ2 25/60
Δ1 25/60
K4 25/25
ΟΔΟΣ ΣΧΕΔΙΟΥ ΠΟΛΗΣ (10μ)
K2 25/45
K1 25/60/60
ΙΣΟΓΕΙΟΥ 1:50
GROUND FLOOR FORMWORK PLAN
METAL CONSTRUCTION
PARASKEVOPOULOS STRUCTURAL SYSTEM
+9.50
σοβατεπί (μάρμαρο 2 εκ.)
μάρμαρο 3 εκ.
+9.61
υγρομόνωση - μεμβράνη ρύσεις (6 εκ.) κλίση 1.5% θερμομόνωση (10 εκ.) πλάκα Ο.Σ. 15 εκ. θερμομόνωση 7 εκ. σοβάς οροφής 3 εκ.
σκοτία 1x1 εκ.
δοκάρι O.Σ (30 x 50 εκ)
σοβάς 2.5 εκ.
HEB 240
συρματόσχοινο
ασφαλτόπανο οπλ.σκυρ. 10 εκ. λαμαρίνα ksh 5 εκ. διαδοκίδα μεταλλική ΙPE 120 θερμομόνωση γυψοσανίδα (ψευδοροφή) 12,5 χιλ.
Λ2
δοκάρι O.Σ (30 x 50 εκ)
σενάζ Ο. Σ. 15 x 30 εκ.
οδηγός κίνησης ρολού
Λ1
κάσσα αλουμινίου 5 x 10 εκ.
2.60
Λ2
+6.70
2.40
φύλλα κουφώματος ( συρόμενα) κάσσα αλουμινίου 5 x 10 εκ.
μεταλλική ποδιά
κούφωμα 2
φύλλα κουφώματος (συρώμενα) κάσσα αλουμινλιου 5 x 10 εκ.
τάβλα ξύλινη 3 εκ. υπόστρωμα (κόντρα πλακέ) 2 εκ. καδρόνι 5 x 5 (ανά 35 εκ.) πλάκα Ο.Σ. 15 εκ. θερμομόνωση 7 εκ. σοβάς 3 εκ.
στρατζαριστή λαμαρίνα
1.20
2.40
+4.05
σοβατεπί (ξύλο 2 x 7 εκ.)
Λ3
κουτί ρολού αλουμινίου ( 20 x 20 εκ.)
+9.05
οδηγός κίνησης ρολού
κούφωμα 2
κάσσα αλουμινίου 5 x 10 εκ.
κούφωμα 2
πρέκι (στρατζαριστή λαμαρίνα)
+9.50
κουτί ρολού αλουμινίου ( 20 x 20 εκ.)
IPE 120
+3.65
+8.13
Λ1
ειδικό τεμάχιο (λαμαρίνα) σοβάς 3 εκ. θερμομόνωση 7 εκ. τούβλο 10 x 10 x19 ψύχα 10 εκ. τούβλο 10 x 10 x19 σοβάς 2.5εκ.
+6.70
+9.41
+9.05
νεροσταλάκτης(1,0 x 1,0 εκ.) τσιμεντολάσπη 3 εκ.
Λ1
προβολή στηθαίου 20 εκ.
τσιμεντοσανίδα 12,5 χιλ. θερμομόνωση 10 εκ. κενό αέρα Λ3 θερμομόνωση 5 εκ. γυψοσανίδα 12,5 χιλ.
+3.65
IPE 120
+4.05
+4.05
σοβατεπί (ξύλο 2 x 7 εκ.)
συρματόσχοινο
+3.49
σκοτία 1x1 εκ.
HEB 240
κούφωμα 1
δοκάρι O.Σ (30 x 50 εκ)
λαπάτσα 90/240/10 λαπάτσα 90/120/10
2.40
λαπάτσα 90/120/10
σενάζ Ο. Σ. 15 x 30 εκ.
+0.65
κουτί ρολού αλουμινίου ( 20 x 20 εκ.)
IPE 120
πρέκι (στρατζαριστή λαμαρίνα)
+0.00
κάσσα αλουμινίου 5 x 10 εκ.
Λ4
κούφωμα 1
2.40
Λ2
πλάκα Ο.Σ. 10 εκ λαμαρίνα ksh500 (5εκ.) διαδοκίδα μεταλλική (IPE 120) θερμομόνωση 10 εκ. γυψοσανίδα (ψευδοροφή) 12,5 χιλ
κουτί ρολού αλουμινίου ( 20 x 20 εκ.)
κάσσα αλουμινίου 5 x 10 εκ. 2.30
οδηγός κίνησης ρολού
-1.20
κούφωμα 1
3.10
κιγκλίδωμα
-1.65
2.40
-2.35
TOMH A-A 1:50 φύλλα κουφώματος (συρώμενα) κάσσα αλουμινλιου 5 x 10 εκ.
φύλλα κουφώματος (συρώμενα) κάσσα αλουμινλιου 5 x 10 εκ.
σοβατεπί (ξύλο 2 x 7 εκ.)
3 εκ. η 3 εκ. ε ελαφρύ οπλισμό 10 εκ.
.00
-δάπεδο 5-10 εκ. -γέμισμα 5-6 εκ. -ελαφρά οπλισμένο σκυρόδεμα (15 εκ.) -θερμομόνωση (5 εκ.) -υγρομόνωση (μεμβράνη ή -ασφαλτόπανο) -άοπλο σκυρόδεμα (10 εκ.) -χαλίκι (10 εκ.) -λιθορριπή
+0.00
IPE 120 ξύλινο deck
τοιχείο Ο.Σ (25 εκ.)
Λ4
δοκάρι (20 x 60 εκ.)
-1.20
ξύλινο deck
IPE 120
Λ3 τοιχείο Ο.Σ (25 εκ.)
ΚΑΤΑΣΚΕΥΑΣΤΙΚΗ TOMH ΠΑΡΑΣΚΕΥΟΠΟΥΛΟΥ -1.20 A-A 1:20
-δάπεδο 5-10 εκ. -γέμισμα 5-6 εκ. -ελαφρά οπλισμένο σκυρόδεμα (15 εκ.) -θερμομόνωση (5 εκ.) -υγρομόνωση (μεμβράνη ή -ασφαλτόπανο) -άοπλο σκυρόδεμα (10 εκ.) -χαλίκι (10 εκ.) -λιθορριπή
πεδιλοδοκάρι (20 x 60 εκ.)
διάτρητος σωλήνας αποστράγγισης
(βαφή η μεμβράνη) 25 εκ.)
+0.65
σοβατεπί (ξύλο 2 x 7 εκ.)
τσιμεντόπλακα 3 εκ. τσιμεντολάσπη 3 εκ. γκρο μπετόν με ελαφρύ οπλισμό 10 εκ. χαλίκι 10 εκ. αμμοχάλικο
πεδιλοδοκάρι (40 x 120 εκ.) γκρο μπετόν καθαριότητας
υγρομόνωση (βαφή η μεμβράνη) τοιχείο Ο.Σ. (25 εκ.) σοβάς (3 εκ.)
διάτρητος σωλήνας αποστράγγισης
πεδιλοδοκάρι (40 x 120 εκ.) γκρο μπετόν καθαριότητας
CONSTRUCTION DETAIL
ΚΑΤΑΣΚ TOMH A-A 1:2
CONSTRUCTION DETAIL
Ο.Γ. Ρ.Γ.
Δ2 30/50 Y1: HEB 240
Y2: HEB 240 HEB 240
IPE 120
0.00
1.05Δ6 30/50
Δ7 30/50 0.75
Π3/15
Δ9 30/50
Δ8 30/50
ΣΑΛΟΝΙ / ΤΡΑΠΕΖΑΡΙΑ
0.75
Δ10 30/50
Πρ/15 2
IPE 120
IPE 120
IPE 120 Y4: HEB 240
HEB 240
Y11: HEB 240 HEB 240
HEB 240 Y7: HEB 240
Y6: HEB 240
HEB 240 Y8: HEB 240
HEB 240
IPE 120
IPE 120
IPE 120
HEB 240
IPE 120
Y5: HEB 240
IPE 120
E-Z 15/90
0.00
IPE 120
HEB 240
2 1
IPE 120
IPE 120
3
IPE 120
HEB 240
4
18
Y10: HEB 240 HEB 240
IPE 120
HEB 240
Πρ/15 1
1.05
IPE 120
5
17
Π2/15
ΚΟΥΖΙΝΑ
IPE 120
Δ4 30/50
IPE 120
6
IPE 120
7
IPE 120
8
HEB 240
ΑΠΟΘΗΚΗ
Δ3 30/50
9
IPE 120
10
HEB 240
11
Π1/15
16
IPE 120
12 13 14 15
ΟΔΟΣ ΣΧΕΔΙΟΥ ΠΟΛΗΣ (10μ)
W.C.
Δ5 30/50
Y3: HEB 240 HEB 240
IPE 120
Δ1 30/50
Y9: HEB 240
IPE 120 0.00
ΞΥΛΟΤΥΠΟΣ ΟΡΟΦΗΣ GROUND FLOOR FORMWORK PLAN ΙΣΟΓΕΙΟΥ
ΟΔΟΣ ΣΧΕΔΙΟΥ ΠΟΛΗΣ (8μ)
GROUND FLOOR FORMWORK PLAN ΞΥΛΟΤΥΠΟΣ ΟΡΟΦΗΣ ΙΣΟΓΕΙΟΥ
41
MICROHOME COMPETITION No 4: Centaur House Project by: Apostolos Mardiris, Ariadni Logiadi, Nikolaos Lemonidis, Efrosini Gkougkouli (2022) The building stands in a small glade high up the mountain with view of the sea. It is characterised by the impressive cantilever at the south side of the building and the inclined single slope roof which meet the orthocanonical terrace. It is orientated in the north - south axis in order to exploit fully the light of the sun in winter and the light winds of summer. There are also panels on the roof with the purpose to add further to its ecological character . The entrance of the house is in the north elevation of the building while in the southern elevation there is a porch with view of the sea . In the interior of the house , left of the entrance , is a small kitchen while on the right is the staircase that leads to the loft . Across the kitchen is located the sitting room with access to the southern porch. Accordingly , under the staircase there is the bathroom which is designed in a way that combines a sink with a shower in order to save more space without being uncomfotable to use . Beside the bathroom there is also a storage room . In the upper space ( loft ) are located the bedroom with each storage below the bed in the shape of drawers and lastly a desk which has the last mentioned view of the sea.
+ 6.53
+ 5.73
+ 4.00
+ 3.45 + 3.00
+ 0.15
+ 0.00
SECTION 0
1
2
+ 6.53
+ 6.53
+ 5.73
+ 5.48
+ 3.45 + 3.00
+ 3.00
+ 2.65
+ 0.15
+ 0.00
ΟΨΗ WESTΔΥΤΙΚΗ ELEVATION 0
1
+ 0.15
+ 0.00
ΟΨΗ SOUTH ΝΟΤΙΑ ELEVATION 0
2
1
2
+ 6.53
+ 6.53
+ 5.73
+ 3.45
+ 3.45
+ 3.00
+ 3.00 + 2.65
+ 0.15
+ 0.00
NORTHΒΟΡΕΙΑ ELEVATION ΟΨΗ 42
0
1
2
+ 0.15
+ 0.00
EAST ELEVATION ΑΝΑΤΟΛΙΚΗ ΟΨΗ 0
1
2
6.36
0.20
0.60
1.40
2.05
2.11
1.35
0.48 3.93
0.20
0.90
1.00
ΚΑΤΟΨΗ ΙΣΟΓΕΙΟΥ GROUND FLOOR PLAN 6.36
1.38
2.67
2.31
2.20
1.73
AXONOMETRIC
ΚΑΤΟΨΗ LOFTLOFT PLAN
43
PH2030: Model of Greek Community Pharmacy of 2030 Competition Project by: Apostolos Mardiris, Ariadni Logiadi, Nikolaos Lemonidis, Eirini Mardiri (2023) As a hypothesis of what a pharmacy in the future should contain, we renovate two pharmacies in the city of Patras following the strictly requested utility program. The project is built around a main theoretical structure of well-connected and functional rooms. Firstly the Reception of the store, which is connected with the office and the storing room in the loft above. This is possible by adding one auxiliary staircase inside the reception. The office behind is also connected directly with the care rooms, one in each end of two public corridors. Regarding the loft, its uses are focused on the staff of the store, more specifically, the laboratory and the main storing room. In the applied solution of the idea, in building A we added a main staircase as well, which provides a second way of arriving to the loft. Also there are two waiting rooms before each of the care rooms with the purpose of not only sitting the ongoing visitors of the store but also to connect the rooms with the office.
ΑΝΑΤΟΛΙΚΗ ΟΨΗ
PLAN A GROUND FLOOR
ΝΟΤΙΑ ΟΨΗ
PLAN A FIRST FLOOR
SECTION A-A 44
ΚΑΤΟΨΗ ΙΣΟΓΕΙΟΥ
SPACE A BACK ELEVATION
AXONOMETRIC A SPACE A FRONT ELEVATION
45
PH2030: Model of Greek Community Pharmacy of 2030 Competition Project by: Apostolos Mardiris, Ariadni Logiadi, Nikolaos Lemonidis, Eirini Mardiri (2023) In contrast, the building B, due to limited space, does not have those waiting rooms, and it’s free space is smaller as well. However to gain more free space, we have exchanged the straight staircase inside the reception of the building with a smaller circular one.
ΑΝΑΤΟΛΙΚΗ ΟΨΗ
PLAN B GROUND FLOOR
PLAN B FIRST FLOOR ΝΟΤΙΑ ΟΨΗ
46
SECTION A-A
SPACE B FRONT ELEVATION
AXONOMETRIC B
47
ACADEMIC PROJECTS APOSTOLOS MARDIRIS DEPARTMENT OF ARCHITECTURE UNIVESITY OF THESSALY a.mardiris@gmail.com Apostolos Mardiris Apostolos Mardiris @ApoMardiris 48